C441 Ethernet module user manual (C441R, C441T, C441U, C441V)

Transcription

1 Supersedes August 2012 C441R & C441T C441U & C441V

2 Contents Description Page 1 Introduction Ratings Mounting and Dimensions C441R and C441T C441U and C441V Connections and switch settings Connecting To an Ethernet Network Setting the IP Address Mode Connecting To The Modbus Serial Port Connecting the I/O points and power supply S811+ to C441U and C441V Indicators Configuration Reset Button Configuration Configuration using a web browser Configuration using an EDS file EtherNet/IP Protocol Support Supported Connections EtherNet/IP Object Model for C441 Motor Insight EtherNet/IP Object Model for C440 overload relay EtherNet/IP Object Model for S611 Soft Starter EtherNet/IP Object Model for S811+ Soft Starter EtherNet/IP Object Model Stand Alone I/O Modbus TCP and Modbus Serial Protocol Support Supported Function Codes Definitions for the C441 Motor Insight Definition for the C440 Overload Relay Definition for the S611 Soft Starter Definitions for S811+ Soft Starter Definitions for use as stand alone I/O

3 User Manual MN E 1 Introduction The C441 Ethernet module enables Ethernet communications for the following Eaton Devices: C441 Motor Insight overload and monitoring relay C440 Overload and monitoring relay S611 Soft Starter S811+ Soft Starter The device can also be used stand alone as an Ethernet I/O block. The table below describes the products covered in this manual and their primary usage Table 1. Product Selection Catalog # Description Use With C441R C441T C441U C441V Plug In Ethernet Module with 120 Vac Inputs and Relay Outputs Plug In Ethernet Module with 24 Vdc Inputs and Relay Outputs Stand alone Ethernet Module with 120 Vac Inputs and Relay Outputs Stand alone Ethernet Module with 24 Vdc Inputs and Relay Outputs C441 Motor Insight S611 Soft Starter C441 Motor Insight S611 Soft Starter C440 Overload As I/O Block S811+ Soft Starter C440 Overload As I/O Block S811+ Soft Starter The Ethernet module provides the following key features: Supports EtherNet/IP protocol Supports Modbus TCP protocol Integrated web page for device monitoring and set up Dual Ethernet ports with integrated switch 4 Discrete Input Points and 2 Output relays Additional Modbus Serial monitoring port available for most configurations The Ethernet Module can simultaneously support data access from EtherNet/IP originators and Modbus TCP clients. 2 Ratings The following ratings apply to the C441R, C441T, C441U and C441V Table 2. Ethernet Physical Layer Ratings Description Rating Media Wire Ethernet Link Speed 10/100 MB Auto MDIX support yes # of Ports 2 Table 3. Environmental Ratings of the Module Description Rating Transportation and Temperature -40 C 85 C Storage Humidity 5 95% non condensing Operating Temperature -20 C 50 C (-40 F 131 F) Humidity 5 95% non condensing Altitude Above 2000 meters (6600 feet), consult factory Shock IEC G any direction for 11 milliseconds Vibration IEC Pollution Degree Hz, 5G, 0.7 mm maximum peak-to-peak Table 4. Approvals and Certifications Electrical/EMC Rating ESD Immunity (IEC ) +/- 8 kv Air, +/-4 kv contact Radiated Immunity (IEC ) 10 V/m MHz, 80% amplitude 1 khz Fast Transient (IEC ) +/- 2 kv using direct method Surge (IEC ) +/- 2 kv line-to-ground RF Conducted (IEC ) 10 V, MHz Ingress Protection Code IP20 Radiated and Conducted Emissions EN55011 Class A Agency Certifications UL 508 cul (CSA C22.2 No. 14) CE (Low Voltage Directive) ODVA EtherNet/IP Certified Table 5. Input Power Supply Requirements Description Requirement Voltage Range Vdc Current Draw (Maximum) 50 ma Note: Any UL Listed power supply with an isolated 24Vdc voltage output can be used provided that a UL listed or recognized fuse rated no more then 4A maximum is installed m WARNING ONLY APPLY 24VDC TO THE MOTOR INSIGHT COMMUNICATION MODULE POWER SUPPLY CONNECTOR. USE OF ANY OTHER VOLTAGE MAY RESULT IN PERSONAL INJURY, PROPERTY DAMAGE AND DAMAGE TO THE MODULE. 3

4 The C441R and C441U provide connection for four AC Input points the ratings for these inputs are: Table 6. AC Input Ratings Specification Value Number of Inputs 4 Nominal voltage 120 Vac Nominal Current 15 ma Operating Range Vac Operating Frequency 50/60 Hz Signal Delay Max 30 ms Input Type IEC , type 1 digital 3 Mounting and Dimensions 3.1 C441R and C441T The Ethernet module is designed to be installed on the right side of the Motor Insight base unit. The C441T and C441V provide connection for four DC Input points. The ratings for these inputs are: Table 7. DC Input Ratings Specification Value Number of Inputs 4 Nominal voltage 24 Vdc Nominal Current 5 ma Type Current Sinking Input Type IEC , type 1 digital All units provide two output relays. The ratings of the relay outputs are: Table 8. Relay Output Ratings Specification Value Num Contacts 2 Independent Relays (1 Form C, 1 Form A) Thermal Contact 5 A Rated Insulation Voltage 300 Vac Max Operating Voltage 120 Vac Max Operation Current 5 A Electrical Life Operations Mechanical Life Operations Figure 1. Installation Diagram 1. Align module with side of Motor Insight base unit 2. Slide module bottom pegs in appropriate slots 3. Rotate module up and gently click the base unit and module together. The resulting dimensions of the Motor Insight base unit and Ethernet module is shown in Figure 2. 4

5 User Manual MN E Figure 2. Product Dimensions (Attached to C441 Base Unit) 5

6 3.2 C441U and C441V The C441U and C441V have both screw mounting feet and a din rail spring mounting feature. To mount the adapter to a din rail place the bottom of the device on the rail first then apply gentle upward force while pushing the device flat against the din rail. Figure 3. C441U and C441V Dimensions and Mounting 6

7 User Manual MN E 4 Connections and Switch Settings This section describes the connections and switch settings for the Ethernet module. The figure below depicts the connection points, LED indicators and DIP switch settings that will be described in this section. Front View Indicators P1 P2 Ethernet Ports (2) I/O Indicators Configuration Reset RS485 Port (Modbus) Top Bottom IP Address Switch I/O and Supply Figure 4. Module Connections, Settings, and Indicators 7

8 4.1 Connecting to an Ethernet Network The Ethernet module provides two Ethernet ports labeled P1 and P2. The two ports allow the module to be connected in either a star, linear or ring network. These options are described below. Star Network Connection In a star network connection one port of the Ethernet module is connected to a standard Ethernet switch. The figure below depicts 3 Motor Insight modules connected to a PLC over Ethernet using an external 4 port switch: Ethernet Switch P1 P1 P1 P2 P2 P2 PLC Figure 5. Star Network Connection Example Either P1 or P2 can be used in a star network. 8

9 User Manual MN E Linear Network Connection In a Linear network the number of external switch ports can be reduce, or the external switch can be eliminated all together. The figure below depicts three Motor Insight modules connected to a PLC without any external switch. P1 P1 P1 P2 P2 P2 PLC Figure 6. Linear Network Connection Example It does not matter which port (P1 or P2) is used for each connection shown in the diagram. Ring Network Connection Some PLC systems and external switches provide support for ring network topologies. In these systems a closed ring is formed and a special algorithm is used to allow communications to continue even if a cable becomes disconnected or one of the ring devices is removed. Two common ring algorithms are: Rapid Spanning Tree Protocol (RSTP) Device Level Ring (DLR) While the Motor Insight does NOT directly execute these algorithms, it has been designed to be included in these two types of rings. The figure below depicts three Motor Insight units connected in a ring with a PLC that supports a ring algorithm. P1 P1 P1 PLC (With Ring Support) P2 P2 P2 Figure 7. Ring Network Connection Example It does not matter which port (P1 or P2) is used for each connection shown in the diagram. 9

10 4.2 Setting the IP Address Mode Though the Ethernet Module has two Ethernet Ports, it only has one IP address that is used to target communications to the device. The dip switch accessible on the top of the module is used to establish the IP address Mode. The switch settings and the resulting behaviors are depicted in the table below. Table 9. IP Address Switch Settings Behavior at reset (power cycle or configuration Value Mode reset button) 0 Restore The operating IP configuration will be set to the follow values: IP Address = Net Mask = Gateway = Note: This mode is intended for fast recovery from an unknown static IP configuration. The switch Value must be changed to apply a new IP setting Static (HW) 254 Static (NV) The Value determines the last byte of the IP address. The rest of the IP configuration will be equal to the Static NV values set via web pages or other protocol. Note: This mode is intended for applications where fast deployment of devices without web configuration is important. The IP configuration will be set to the values stored in NV memory. The default NV values from the factory are: IP Address = Net Mask = Gateway = These can be changed from the web page or by writes to modbus registers. 255 DHCP The IP configuration is set by an external DHCP server on the network. 4.3 Connecting to the Modbus Serial Port The serial port on the Ethernet module supports a Modbus RTU or ASCII protocol as a slave device (default = RTU). The physical layer settings for the device have the following default values, and can be modified through the web page or writing to Modbus registers. A 4-pin connector is provided to connect the device to the Modbus network as shown in the figure below. Two of the pins provide an additional connection point for the 24 Vdc power supply. - D0 + D1 P1 P2 Setting Default Range Address 1 1 to 247 Baud Rate 19.2K 9600, 19.2K, 57.6K, 115.2K Stop Bits 1 1 or 2 Parity Even Even or Odd Mode RTU RTU or ASCH Figure 8. Serial Modbus Connection Note: When the C441U or C441V are used with the C440 overload relay, this serial port is used to connect to the C440 serial port and is NOT available as a serial monitoring port. 10

11 User Manual MN E 4.4 Connecting the I/O Points and Power Supply Figure 9. Wiring for C441T and C441V with Isolated DC Inputs 11

12 Figure 10. Wiring for C441T and C441V, Non-Isolated Inputs 12

13 User Manual MN E Figure 11. Wiring for the C441R and C441U 13

14 4.5 S811+ to C441U and C441V Figure 12. S811+ to C441U and C411V Wiring Diagram 4.6 Indicators The Ethernet module includes indicators for the module status (MS), Network (NS), Input (I1-I4) and Output (O1-O2). Module Network I/O Figure 13. Indicators MS NS I1 I2 I3 I4 O1 O2 The Module Indicator states are described in the table below Table 10. Module Indicator Indicator State Summary Requirement Steady Off No Power If no power is supplied to the device, the module status indicator shall be steady off. Steady Green Device Operational If the device is operating correctly, the module status indicator shall be steady green. Flashing Green Standby If the device has not been configured, the module status indicator shall be flashing green. Flashing Red Minor Fault If the device has detected a recoverable minor fault, the module status indicator shall be flashing red. Note: An incorrect or inconsistent configuration would be considered a minor fault. This fault indication will be active when the target device (C441, C440, S611) is not powered up or not connected to the communication adapter. Check connections and attempt a power cycle of the communication adapter and target device. Steady Red Major Fault If the device has detected a non-recoverable major fault, the module status indicator shall be steady red. This fault can be generated by an NV memory read failure. A factory reset should be attempted to clear the issue. Flashing Green/ Red Self-test While the device is performing its power up testing, the module status indicator shall be flashing green / red. 14

15 User Manual MN E When operating with EtherNet/IP, the network status indicator states are described by the following table. Table 11. Network Indicator: Ether Net/IP Indicator State Summary Requirement Steady Off Flashing Green Not Powered No IP Address No Connections The device is powered off, or is powered on but with no IP address configured (Interface Configuration attribute of the TCP/IP Interface Object). An IP address is configured, but no CIP connections are established, and an Exclusive Owner connection has not timed out. Steady Green Connected At least one CIP connection (any transport class) is established, and an Exclusive Owner connection (defined in Volume 1, Chapter 3) has not timed out. Flashing Red Connection Time-out An Exclusive Owner connection (defined in Volume 1, Chapter 3) for which this device is the target has timed out. The network status indicator shall return to steady green only when all timed out Exclusive Owner connections are reestablished. Devices that support a single Exclusive Owner connection shall transition to steady green when any subsequent Exclusive Owner connection is established. Devices that support multiple Exclusive Owner connections shall retain the O->T connection path information when an Exclusive Owner connection times out. The Network LED shall transition from flashing red to steady green only when all connections to the previously timed-out O->T connection points are reestablished. Time-out of connections other than Exclusive Owner connections shall not cause the indicator to flash red. The Flashing Red state applies to target connections only. Originators and CIP Routers shall not enter this state when an originated or routed CIP connection times out. Steady Red Duplicate IP If the device has detected a non-recoverable major fault, the module status indicator shall be steady red. Flashing Green and Red Self-test While the device is performing its power up testing, the module status indicator shall be flashing green and red. Note: When a single indicator is used to represent multiple IP address interfaces the state of any one interface shall be sufficient to modify the indicator state (per the above behavior in the table): Transition to flashing green when any one interface receives an IP address. Transition to steady green when a CIP connection is established on any interface (and Exclusive Owner is not timed out). Transition to flashing red when an Exclusive Owner CIP connection times out on any interface. Transition to steady red when any of the interfaces detects an IP address conflict. When operating with Modbus TCP, the Network indicator states are described below. Table 12. Network Indicator: Modbus TCP Indicator State Summary Description Steady Off Not Powered, No IP Address Device is not powered, or is powered with no IP address assigned. Flashing Green No Traffic The device has an IP address, but no Modbus TCP traffic detected. Flashing Yellow Modbus TCP Traffic The device is receiving Modbus TCP messages. The Input Indicator states are described in the table below Table 13. Input (I1-I4) Indicator Indicator State Description Off Field Input signal is off On Solid Field Input signal is on The Output Indicator states are described in the table below. Table 14. Output (O1-O2) Indicator Indicator State Off On Solid Description Field Output signal is off Field Output signal is on 4.7 Configuration Reset Button The configuration reset button performs the following functions: Press Description Press and release (under 5 seconds) Press and hold 5 seconds Press and hold while cycling power Action Taken Performs LED test Soft reset, same as power cycling the module. This allows new DIP switch settings to take effect. Factory Reset. All configuration values returned to default conditions. 15

16 5 Configuration 5.1 Configuration Using a Web Browser The Ethernet module includes an embedded web page that provides the ability to monitor the status and set the configuration of the Motor Insight device and the Ethernet module. The web pages have been validated for use with Internet Explorer. To use the web page open your Internet Explorer browser and enter the IP address assigned to the Ethernet module: IP Address The web page provides five levels of authorization as shown in the chart below: Level Default User Name Default Password Description Open <none> <none> Open access, has no password. Allows opening web page to be viewed, but no additional information is available Read_Only readonly readonly Read_Only access allows parameters to be viewed, but no control or configuration Control control control Control provides capabilities of Read_Only plus allows motor and discrete outputs to be turned on and off Config configuration configuration Config provides capabilities of Control plus the ability to set configuration values. Super_ User superuser superuser Super_User provides the capabilities of Config plus the ability to change user names and passwords. In addition to the individual levels, a password exemption setting is provided. This setting specifies a level that can be accessed without any password protection. The default value of the password exemption is Super_User. All capabilities of the web page are accessible without a password prompt until the password exemption is changed to a lower level. User names and passwords are case sensitive, and limited between 6~16 characters. For security reasons, it is recommended that the user change the default passwords and adjust the password exemption level to be lower than Super_User after configuration. It is also recommended that these changes be made within a local subnet. 5.2 Configuration Using an EDS File Multiple EDS files are available for the Ethernet Module depending on the configuration of the module: Connected to the C441 Motor Insight Connect to the C440 overload relay Connected to the S611 Soft Starter Connected to the S811+ Soft Starter Stand Alone I/O These EDS file can be imported into any EtherNet/IP configuration tools that support EDS files. The EDS files can be downloaded from the Eaton web site: 6 EtherNet/IP Protocol Support 6.1 Supported Connections The Ethernet Module allows the Connected device to connect on EtherNet/IP. It can be connected both as an Explicit Message server and as an Implicit (I/O) message target. The Implicit connections supported include: Exclusive Owner Listen Only Input Only 6.2 EtherNet/IP Object Model for C441 Motor Insight Full Profile for Motor Insight The table below shows the supported classes of the Ethernet Module when connected to a Motor Insight overload and monitoring relay. Class 0x01 (hex) 0x02 0x04 0x06 0x08 0x09 0x29 Object # of Instances Description Identity 1 Provides module identity object: See details below. Message Router Assembly Object Connection Manager Discrete Input Point Discrete Output Point Control Supervisor 1 Internal object implemented per ODVA specification. (See assembly object details) Binds attributes from multiple objects for access with a single Implicit (I/O) connection. See details below. 1 Internal object supporting connection management. Implemented per ODVA specification. 4 information for the discrete Inputs. See details below. 2 and control for the discrete Outputs. See details below. 1 Motor control functions. See details below. 0x2C Overload 1 Motor overload protection. See details below. 0x93 Voltage 1 Vendor Specific object for monitoring motor voltage. Monitor See details below. 0xF5 0xF6 TCP/IP Interface Ethernet Link Object Details Identity Object Class: 1 (0x01) Table 15. Instance Services Service Code Service Name 1 Information about the TCP/IP Interface. Implemented per ODVA specification. 2 Ethernet link object for each of the 2 Ethernet ports on the device. Implemented per ODVA specification. Service Description 0x05 Reset 0 Instance 1: Initializes adapter to the Power-up state. 0x05 Reset 1 Instance 1: Writes default values to all instance attributes AND then saves all non-volatile attributes to FLASH memory AND then performs the equivalent of a Reset(0). 0x05 Reset 101 Vendor specific reset perform Intercom divorce. 0x0E Get_ Attribute_ Single n/a Returns the value of the specified attribute. 0x10 Set_ Attribute_ Single value Sets the value into the specified attribute. 16

17 User Manual MN E Table 16. C441 Motor Insight Identity Object Instance Attributes 1 V Get UINT CIP Vendor ID 2 V Get UINT CIP Device Type 3 V Get UINT Product Code 4 V Get UINT Firmware Rev 5 V Get WORD Device 6 NV Set/Get UDINT Serial Number 7 V Get SHORT_ STRING Product Name 8 V Get USINT Device State 176 NV Set/Get SHORT_ STRING Assigned Name 177 V Get UINT C441 DSP FW Version 178 V Get UINT UI Firmware Version 179 NV Set/Get UINT C441 Unit ID ODVA assigned Vendor Identification number. CIP defined general product type. Vendor Product Code Com Adapter Firmware Rev. This attribute represents the current status of the entire devices. Its value changes as the state of the device changes. Bit = Definition 0 = Owned. True indicates the device has an owner. 2 = Configured. True indicates the application of the device has been configured to do something different than out of box default. Does not include communication configuration. 4-7 = Extended Device. 8 = Minor Recoverable Fault. True indicates the device detected a problem with itself, which is thought to be recoverable. 9 = Minor Unrecoverable Fault. True indicates the device detected a problem with itself, which is thought to be unrecoverable. 10 = Major Recoverable Fault. True indicates the device detected a problem with itself causing a Major Recoverable Fault state. 11 = Major Unrecoverable Fault. True indicates the device detected a problem with itself causing a Major Unrecoverable Fault state. 32 bit Com Adapter Device Serial Number. ASCII product name. Present state of the device. Value = Definition 0 = Nonexistent 1 = Device Self Testing 2 = Standby 3 = Operational 4 = Major Recoverable Fault 5 = Major Unrecoverable Fault 255 = Default for Get Attributes All. User Defined ASCII Name. C441 DSP Firmware Version User Interface Firmware Version Unit ID 0x00BA (186) - C441BA 0x00BB (187) - C441BB 0x00CA (202) - C441CA 0x00CB (203) - C441CB 0x00DA (218) - C441DA 0x00DB (219) - C441DB 0x00EA (234) - C (x) 0x00EB (235) - C (x) Assembly Object Class: 4 (0x04) Table 17. C441 Motor Insight Assembly Object Instance Attributes 3 V Set/Get Array of BYTE Assembly. See sections below for instance definition. Table 18. C441 Motor Insight Assembly Object Instances Type Instance Usage Name Output 2 Poll Basic Output Overload Output 105 Poll Basic Overload w/relay Input 50 Poll Fault Input 51 Poll Extended Input Overload Input 100 Poll and Current Input 107 Poll Extended Overload Input w/io Input 110 Poll, Inputs and Measurements Input 115 Poll General Monitoring Input 121 Poll and Short Measurements Table 19. C441 Motor Insight Assembly Instance 2 (0x02): Basic Output Overload Basic Output Overload Total Assembly (bytes): 1 Bit 2: Fault Reset Table 20. C441 Motor Insight Assembly Instance 50 (0x32): Fault Fault Bit 0: Faulted. Total Assembly (bytes): 1 Table 21. C441 Motor Insight Assembly Instance 51 (0x33): Extended Input Overload Extended Input Overload Total Assembly (bytes): 1 Bit 0: Faulted Bit 1: Warning 17

18 Table 22. C441 Motor Insight Assembly Instance 100 (0x64): and Current Assembly includes the status overview and motor current levels. (bytes): 2. All data is little endian (low byte first) Device Device Bit Array Bit 0: Trip Bit 1: Warn Bit 2: Output #1 Bit 3: Output #2 Bit 4: Input #1 Bit 5: Input #2 Bit 6: Input #3 Bit 7: Input #4 Bit 8: Overload Power Lost Bit 9: Comm Adapter Low Voltage Current I1 Phase A RMS Current, Unit: 90 Amp Models: x0.1a 9 Amp Models: x0.1a when external CTs are used; x0.01a otherwise (scale) Current I2 Phase B RMS Current, Unit: 90 Amp Models: x0.1a 9 Amp Models: x0.1a when external CTs are used; x0.01a otherwise (scale) Current I3 Phase C RMS Current, unit: 90 Amp Models: x0.1a 9 Amp models: x0.1a when external CTs are used; x0.01a otherwise (scale) Total Assembly (bytes): 8 Table 23. C441 Motor Insight Assembly Instance 105 (0x69): Basic Overload w/relay Basic Overload w/relay Total Assembly (bytes): 1 Basic Overload with Relays. Bit 0 = Relay Output 1 Bit 1 = Relay Output 2 Bit 2 = Fault Reset Bit 3 = Aux Reset (CP Only) Bit 5 = Test Trip Table 24. C441 Motor Insight Assembly Instance 107 (0x6B): Extended Overload Input w/ IO Extended Overload Input w/ IO Total Assembly (bytes): 1 Extended Overload Assembly with IO. Bit 0 = Fault Bit 1 = Warning Bit 2 = Output 1 Bit 3 = Output 2 Bit 4 = Input 1 Bit 5 = Input 2 Bit 6 = Input 3 Bit 7 = Input 4 Table 25. C441 Motor Insight Assembly Instance 110 (0x6E):, Inputs and Measurements Assembly includes general status, motor current, line voltage and Input states. (bytes): 2 All data is little endian (low byte first) Device Device Bit Array Bit 0: Trip Bit 1: Warn Bit 2: Output #1 Bit 3: Output #2 Bit 4: Input #1 Bit 5: Input #2 Bit 6: Input #3 Bit 7: Input #4 Bit 8: Overload Power Lost Bit 9: Comm adapter low voltage Current I1 Phase A RMS Current, Unit: 90 Amp Models: x0.1a 9 Amp Models: x0.1a when external CTs are used; x0.01a otherwise (scale) Current I2 Phase B RMS Current, Unit: 90 Amp Models: x0.1a 9 Amp Models: x0.1a when external CTs are used; x0.01a otherwise (scale) Current I3 Phase C RMS Current, Unit: 90 Amp models: x0.1a 9 Amp models: x0.1a when external CTs are used; x0.01a otherwise (scale) Trip Reason Current Average Voltage L1-L Voltage L2-L Voltage L3-L Voltage Average Total Assembly (bytes): 20 0x Restart Attempts Exceeded 0x Relay turned off (network/ui) 0x Contactor Failure 0x Under Current Trip 0x Overload Trip 0x GND Fault Trip 0x Current Unbalance Trip 0x Current Single Phase 0x Reserved (0) 0x High Power Trip 0x Over Voltage Trip 0x Under Voltage Trip 0x Voltage Unbalance Trip 0x Over Current Trip 0x Low Power Trip 0x Phase Reversal Trip Average RMS Current, Unit: 90 Amp Models: x0.1a 9 Amp Models: x0.1a when external CTs are used; x0.01a otherwise (scale) Phase A RMS Voltage L1-L2 (V) Phase B RMS Voltage L2-L3 (V) Phase C RMS Voltage L3-L1 (V) Average RMS Voltage (V) 18

19 User Manual MN E Table 26. C441 Motor Insight Assembly Instance 115 (0x73): General Monitoring Assembly includes most general measurements and states. (bytes): 2. All data is little endian (low byte first). (bytes) Name Device Description Device Bit Array Bit 0: Trip Bit 1: Warn Bit 2: Output #1 Bit 3: Output #2 Bit 4: Input #1 Bit 5: Input #2 Bit 6: Input #3 Bit 7: Input #4 Bit 8: Overload Power Lost Bit 9: Comm Adapter Low Voltage Current I1 Phase A RMS Current, Unit: 90 Amp Models: x0.1a 9 Amp Models: x0.1a when external CTs are used; x0.01a otherwise (scale) Current I2 Phase B RMS Current, Unit: 90 Amp Models: x0.1a 9 Amp Models: x0.1a when external CTs are used; x0.01a otherwise (scale) Current I3 Phase C RMS Current, Unit: 90 Amp Models: x0.1a 9 Amp Models: x0.1a when external CTs are used; x0.01a otherwise (scale) Field Inputs A bitfield representing the input points. 0 = Input 1 1 = Input 2 2 = Input 3 3 = Input Current Average Voltage L1-L Voltage L2-L Voltage L3-L Voltage Average Motor Power Voltage Unbalance Percentage Current Unbalance Percentage Apparent Power Factor Residual Ground Current Line frequency Average RMS Current, Unit: 90 Amp Models: x0.1a 9 Amp Models: x0.1a when external CTs are used; x0.01a otherwise (scale) Phase A RMS Voltage L1-L2 (V) Phase B RMS Voltage L2-L3 (V) Phase C RMS Voltage L3-L1 (V) Average RMS Voltage (V) Motor Power x0.1kw when external CTs are used x0.01kw otherwise (scale) Max Deviation from Average Voltage Divided by Average Voltage (%). Max Deviation from Average Current Divided by Average Current (%). cos(phi), (real power)/(apparent power) (%) Residual Ground Current in Amps x 100 (x0.01a) Line Frequency (x0.01hz) Table 26. C441 Motor Insight Assembly Instance 115 (0x73): General Monitoring (Cont.) (bytes) Name Description Trip Reason 0x Restart Attempts Exceeded 0x Relay turned off (network/ui) 0x Contactor Failure 0x Under Current Trip 0x Overload Trip 0x GND Fault Trip 0x Current Unbalance Trip 0x Current Single Phase 0x Reserved (0) 0x High Power Trip 0x Over Voltage Trip 0x Under Voltage Trip 0x Voltage Unbalance Trip 0x Over Current Trip 0x Low Power Trip 0x Phase Reversal Trip Overload Overload - 0x0001: Overload Trip - 0x0002: Ground Fault Trip - 0x0004: High Power Trip - 0x0080: Relay Closed Error Code Warning/Alarm Indications 0x0001 (1) - Low Voltage Warning 0x0002 (2) - High Voltage Warning 0x0004 (4) - Voltage Unbalance Warning 0x0008 (8) - Low Power Warning 0x0010 (16) - Reverse Phase Warning 0x0020 (32) - Current Unbalance Warning 0x0040 (64) - Voltage Single Phase Warning 0x0080 (128) - Current Single Phase Warning 0x0100 (256) - GND Fault Warning Thermal Pile Percentage Aux Relay Trip Reason Total Assembly (bytes): 42 Thermal Capacity 0% Cold Motor 100% Will Cause an Overload Trip (%) 0x Relay turned off (network/ui) 0x Contactor Failure 0x Under Current Trip 0x Overload Trip 0x GND Fault Trip 0x Current Unbalance Trip 0x Current Single Phase 0x Mains Freq Fault 0x High Power Trip 0x Over Voltage Trip 0x Under Voltage Trip 0x Voltage Unbalance Trip 0x Over Current Trip 0x Low Power Trip 0x Phase Reversal Trip 19

20 Table 27. C441 Motor Insight Assembly Instance 121 (0x79): and Short Measurements Assembly includes general status and average current/voltage. (bytes): 2 All data is little endian (low byte first) Device Current Average Voltage Average Trip Reason Aux Relay Trip Reason Total Assembly (bytes): 10 Device Bit Array Bit 0: Trip Bit 1: Warn Bit 2: Output #1 Bit 3: Output #2 Bit 4: Input #1 Bit 5: Input #2 Bit 6: Input #3 Bit 7: Input #4 Bit 8: Overload Power Lost Bit 9: Comm Adapter Low Voltage Average RMS Current, Unit: 90 Amp Models: x0.1a 9 Amp Models: x0.1a when external CTs a re used; x0.01a otherwise (scale) Average RMS Voltage (V) 0x Restart Attempts Exceeded 0x Relay Turned Off (Network/UI) 0x Contactor Failure 0x Under Current Trip 0x Overload Trip 0x GND Fault Trip 0x Current Unbalance Trip 0x Current Single Phase 0x Reserved (0) 0x High Power Trip 0x Over Voltage Trip 0x Under Voltage Trip 0x Voltage Unbalance Trip 0x Over Current Trip 0x Low Power Trip 0x Phase Reversal Trip 0x Relay turned off (network/ui) 0x Contactor Failure 0x Under Current Trip 0x Overload Trip 0x GND Fault Trip 0x Current Unbalance Trip 0x Current Single Phase 0x Mains Freq Fault 0x High Power Trip 0x Over Voltage Trip 0x Under Voltage Trip 0x Voltage Unbalance Trip 0x Over Current Trip 0x Low Power Trip 0x Phase Reversal Trip Discrete Output Object Class: 9 (0x09) Instance Count: 2 Instance List: 1, 2 Table 28. C441 Motor Insight Discrete Output Instance Attributes 3 V Set/Get BOOL Field Relay Outputs 5 NV Set/Get BOOL Field Relay Fault Action 6 NV Set/Get BOOL Field Relay Fault State 7 NV Set/Get BOOL Field Relay Idle Action 8 NV Set/Get BOOL Field Relay Idle State Control Supervisor Object Class: 0x29 Output point value Val = Description 0 = Off 1 = On Table 29. Control Supervisor Instance Services Service Code Service Name Service When a communication fault occurs the output can execute two types of behavior. Value = Description 0 = Apply Fault Value 1 = No Change Communication fault value to be applied. Value = Description 0 = Turn Relay Off 1 = Turn Relay On When a communication idle state occurs the relays can execute two types of behavior. Value = Description 0 = Apply Idle Value 1 = No Change Communication idle value to be applied. Value = Description 0 = Turn Relay Off 1 = Turn Relay On Description 0x0E Get_Attribute_Single n/a Returns the value of the specified attribute 0x10 Set_Attribute_Single value Sets the value into the specified attribute 0x05 Reset n/a Resets the overload to the start-up state Discrete Input Object Class:8 (0x08) Instance Count: 4 Instance List: 1, 2, 3, 4 C441 Motor Insight Discrete Input Instance Attributes 3 Get BOOL Input Value of Input Point 0 = Off 1 = On 101 NV Set/Get UDINT Field Inputs Debounce The debounce applies to both rising and falling edge. (milliseconds) 20

21 User Manual MN E Table 30. C441 Motor Insight Control Supervisor Instance Attributes 10 V Get BOOL Fault 11 V Get BOOL Warning 12 V Set/Get BOOL Fault Reset 13 V Get UINT Fault Queue 17 V Set/Get BOOL Force Fault 101 V Get WORD Device 102 V Get UINT Trip Reason 103 V Get UINT Overload 104 V Get UINT Error Code 105 NV Set/Get BOOL Motor Ctrl Idle Loss Act Disable A Fault has occurred. Faults are latching and require a reset. A Warning has occurred. Warnings self clear. 0->1 Causes a reset. Fault Code and Fault Code List. When read as a single item it is the most recent fault. When read as a list, faults are listed in history order. Newest are at the beginning, oldest are at the end of the list. If the device is in the Faulted state, Fault Code indicates the fault that caused the transition to Faulted state. If not in the Faulted state, the Fault Code indicates the fault that caused the last transition to the Faulted state. 0->1 = Force Fault 0 = No action Device Bit Array Bit 0: Trip Bit1: Warn Bit2: Output #1 Bit3: Output #2 Bit4: Input #1 Bit5: Input #2 Bit6: Input #3 Bit7: Input #4 Bit8: Overload Power Lost Bit 9: Comm Adapter Low Voltage 0x Restart Attempts Exceeded 0x Relay Turned Off (Network/UI) 0x Contactor Failure 0x Under Current Trip 0x Overload Trip 0x GND Fault Trip 0x Current Unbalance Trip 0x Current Single Phase 0x Reserved (0) 0x High Power Trip 0x Over Voltage Trip 0x Under Voltage Trip 0x Voltage Unbalance Trip 0x Over Current Trip 0x Low Power Trip 0x Phase Reversal Trip Overload - 0x0001: Overload Trip - 0x0002: Ground Fault Trip - 0x0004: High Power Trip - 0x0080: Relay Closed Warning/Alarm Indications 0x0001 (1) - Low Voltage Warning 0x0002 (2) - High Voltage Warning 0x0004 (4) - Voltage Unbalance Warning 0x0008 (8) - Low Power Warning 0x0010 (16) - Reverse Phase Warning 0x0020 (32) - Current Unbalance Warning 0x0040 (64) - Voltage Single Phase Warning 0x0080 (128) - Current Single Phase Warning 0x0100 (256) - GND Fault Warning When this value is TRUE the motor state will be unchanged after a communication idle event. A FALSE value will cause the Motor Control Communication Idle Value to be applied on a com idle event. Table 30. C441 Motor Insight Control Supervisor Instance Attributes (Cont.) 106 NV Set/Get BOOL Motor Ctrl Com Idle Action Val 107 NV Set/Get BOOL Motor Ctrl Com Loss Act Disable 108 NV Set/Get BOOL Motor Ctrl Com Loss Action Val 109 V Get UINT Fault Queue 110 V Get UINT Fault Queue 111 V Get UINT Fault Queue 112 V Get UINT Fault Queue 113 V Get UINT Fault Queue 114 V Get UINT Fault Queue 115 V Get UINT Fault Queue 116 V Get UINT Fault Queue 117 V Get UINT Fault Queue 118 V Get UINT Fault Queue 119 V Set/Get BOOL Clear Last Fault Entry From Queue 120 NV Set/Get UINT Enable/ Disable Trip Action to execute when a communication loss event occurs. 0 = Ignore (No Change) 1 = Stop When this value is TRUE the motor state will be unchanged after a communication loss event. A FALSE value will cause the Motor Control Communication Loss Value to be applied on a com loss. Action to execute when a communication loss event occurs. 0 = Ignore (No Change) 1 = Stop Fault Code and Fault Code List. When read as a single item it is the most recent fault. When read as a list, faults are listed in history order. Newest are at the beginning, oldest are at the end of the list. If the device is in the Faulted state, Fault Code indicates the fault that caused the transition to Faulted state. If not in the Faulted state, the Fault Code indicates the fault that caused the last transition to the Faulted state. Entry 1 Entry 2 Entry 3 Entry 4 Entry 5 Entry 6 Entry 7 Entry 8 Entry 9 0->1 = Fault Entry Cleared 0 = No action Trip Enable/Disable Bit Array: 0x0001 (1): Enable Ground Fault 0x0002 (2): Enable Voltage Unbalance 0x0004 (4): Enable Current Unbalance 0x0008 (8): Enable Under Current 0x0010 (16): Enable Phase Loss 0x0020 (32): Enable Jam 0x0040 (64): Enable Low Power 0x0080 (128): Enable High Power 0x0100 (256): Enable Over Voltage 0x0200 (512): Enable Under Voltage 0x0400 (1024): Enable Phase Order 21

22 Table 30. C441 Motor Insight Control Supervisor Instance Attributes (Cont.) 121 NV Set/Get WORD Aux Relay Config NV Set/Get WORD Aux Relay Config NV Set/Get UINT Aux Reset Delay 124 V Get WORD Aux Relay Trip Reason 125 (0x7D) V Set/Get BOOL Reset Aux Relay 126 NV Set/Get UINT EtherNet/ IP Com Loss Timeout Value 127 NV Set/Get UINT Antibackspin Time Supported by CP and HVR only. Only available for 120 V Control Power models. Each bit of this configuration parameter enables (value 1) or disables (value 0) a fault for the auxiliary relay. The meanings of the bits are: 0x01: Ground Fault 0x02: Voltage Unbalance 0x04: Current Unbalance 0x08: Under Current 0x10: Phase Loss 0x20: Jam Only available for 120 V Control Power models. Each bit of this configuration parameter enables (value 1) or disables (value 0) a fault for the auxiliary relay. The meanings of the bits are: 0x01: Low Power 0x02: High Power 0x04: Over Voltage 0x08: Under Voltage 0x10: Phase Order 0x20: Overload 0x40: Supply Frequency Fault Only available for 120 V Control Power models. 0: Automatic reset of the auxiliary relay disabled 1-500: Automatic auxiliary relay reset delay since last auxiliary relay fault (min) 0x Relay Turned Off (Network/UI) 0x Contactor Failure 0x Under Current Trip 0x Overload Trip 0x GND Fault Trip 0x Current Unbalance Trip 0x Current Single Phase 0x Mains Freq Fault 0x High Power Trip 0x Over Voltage Trip 0x Under Voltage Trip 0x Voltage Unbalance Trip 0x Over Current Trip 0x Low Power Trip 0x Phase Reversal Trip 0->1 = Reset Aux 0 = No Action EtherNet/IP communication timeout Range: 0 60,000 ms Default: 3000 ms A fault will be generated after every motor stop. No reset will be permitted during the backspin period. Range: sec Overload Object Class 44 (0x2C) Instance Count: 1 Instance List: 1 Table 31. Overload Object Instance Attributes Attrib NV Access 4 NV Set/Get USINT Overload Trip Class 5 V Get INT Current Average 6 V Get USINT Current Unbalance Percentage 7 V Get USINT Thermal Pile Percentage Overload Trip Class Average RMS Current, Unit: 90 Amp Models: x0.1a 9 Amp Models: x0.1a when external CTs are used; x0.01a otherwise (scale) Max deviation from average current divided by average current (%). Thermal Capacity 0% Cold Motor 100% Will Cause and Overload Trip (%) 8 V Get INT Current I1 Phase A RMS Current, Unit: 90 Amp Models: x0.1a 9 Amp Models: x0.1a when external CTs are used; x0.01a otherwise (scale) 9 V Get INT Current I2 Phase B RMS Current, Unit: 90 Amp Models: x0.1a 9 Amp Models: x0.1a when external CTs are used; x0.01a otherwise (scale) 10 V Get INT Current I3 Phase C RMS Current, Unit: 90 Amp Models: x0.1a 9 Amp Models: x0.1a when external CTs are used; x0.01a otherwise (scale) 11 V Get INT Residual Ground Current 101 NV Set/Get UINT Run Time Hours Residual Ground Current in Amps x 100 (x0.01a) Motor Run Time in Hours (resettable) (hr) 102 V Get UINT Start Count Start Count (Resettable) 103 NV Set/Get UINT CT Multiplier 105 NV Set/Get UINT Overload FLA 106 V Get UINT Apparent Power Factor 107 V Get UINT Motor Power 108 V Get UINT Remaining Normal Restart Delay 109 V Get UINT Remaining Underload Trip Restart Delay 110 NV Set/Get UINT Load Fault Hold-off Time 111 NV Set/Get UINT Load Fault Number of Restarts 112 NV Set/Get UINT Motor Fault Hold-off Time For 90 Amp Units: 1-4, number of conductors through CT. For 9 Amp Units: 1-2, number of conductors through CT; For 9 Amp Units, CT multipliers: 3 (150:5), 4 (300:5), 5 (600:5) Motor Full Load Current (x0.01a) cos(phi), (real power)/(apparent power) (%) Motor Power x0.1kw when external CTs are used x0.01kw otherwise (scale) Motor Fault - Time to Restart (sec) Load Fault - Time to Restart (sec) Load Fault Reset Delay (min) Load Fault Number of Reset Attempts 0: Manual 1-4 5: Automatic Motor Fault Reset Delay (min) 22

23 User Manual MN E Table 31. Overload Object Instance Attributes (Cont.) Attrib NV Access 113 NV Set/Get UINT Motor Fault Number of Restarts 114 NV Set/Get UINT Run Transition Time 115 NV Set/Get UINT Run Transition Percent 116 NV Set/Get UINT Ground Fault Trip Mode 117 NV Set/Get UINT Ground Fault Trip Delay 118 NV Set/Get UINT Ground Fault Pickup Level 119 NV Set/Get UINT Current Unbalance Trip Delay 120 NV Set/Get UINT Current Unbalance Pick-up Level 121 NV Set/Get UINT Jam Trip Delay 122 NV Set/Get UINT Jam Pickup Level 123 NV Set/Get UINT Current Phase Loss Trip Delay 124 NV Set/Get UINT High KW Trip Time 125 NV Set/Get UINT High KW Trip limit 126 NV Set/Get UINT Low Power Trip Delay 127 NV Set/Get UINT Low Power Pick-up Level 128 NV Set/Get UINT Under Current Trip Delay 129 NV Set/Get UINT Under Current Pick-up Level 130 NV Set/Get UINT Overload Reset 131 NV Set/Get UINT Load Fault Reset Delay Calc 132 NV Set/Get BOOL Overload on Start Enable 133 NV Set/Get BOOL GF on Start Enable Motor Fault Number of Attempts: 0: Manual 1-4 5: Automatic Run Transition Time (sec) Run Transition % of FLA (%) Ground Fault Trip Mode 0 - Trip on Ground Fault 1 - Alarm No Trip Ground Fault Pickup Delay (sec) Ground Fault Pick-up Level (x0.01a) Current Unbalance Trip Delay (sec) Current Unbalance Pick-up Level (%) Jam Trip Delay (sec) Jam Pick-up Level (%) Pickup Delay for Current Phase Loss (sec) High Power Trip Delay (sec) High Power Pick-up Level (x0.01kw) Low Power Trip Delay (sec) Low Power Pick-up Level (x0.01kw) Under Current Trip Delay (sec) Under Current Pick-up Level (%) Overload Reset Mode 0: Manual Reset 1: Apply Motor Fault Reset Delay and Number of Attempts Load Fault Reset Delay Calculator Enable. Value = Description 0 = Disable (default) 1 = Enabled 0 = Disable 1 = Enable 0 = Disable 1 = Enable Voltage Monitor Object Class 147 (0x93): Instance Count: 1 Instance List: 1 Table 32. Voltage Monitor Object Instance Attributes Attrib NV Access 1 V Get UINT Voltage L1-L2 Phase A RMS Voltage L1-L2 (V) 2 V Get UINT Voltage L2-L3 Phase B RMS Voltage L2-L3 (V) 3 V Get UINT Voltage L3-L1 Phase C RMS Voltage L3-L1 (V) 4 V Get UINT Voltage Average Average RMS Voltage (V) 5 V Get UINT Voltage Unbalance Percentage Max Deviation from Average Voltage Divided by Average Voltage (%) 6 V Get UINT Line Frequency Line Frequency (x0.01hz) 7 NV Set/Get UINT Voltage Faults Trip Mode 8 NV Set/Get UINT Under Voltage Pick-up Level 9 NV Set/Get UINT Under Voltage Trip Delay 10 NV Set/Get UINT Over Voltage Pick-up Level 11 NV Set/Get UINT Over Voltage Trip Delay 12 NV Set/Get UINT Voltage Unbalance Pick-up Level 13 NV Set/Get UINT Voltage Unbalance Trip Delay Voltage Faults Trip Mode 0 - Trip On Supply Fault 1: Alarm-no-Trip (Inhibit Start) Under Voltage Pick-up Level (V) Under Voltage Trip Delay (sec) Over Voltage Pick-up Level (V) Over Voltage Trip Delay (sec) Voltage Unbalance Pick-up Level (%) Voltage Unbalance Run Delay (sec) 14 NV Set/Get UINT Phase Order Phase Order - 0 (Trip Disabled) - 1 ACB - 2 ABC 15 NV Set/Get UINT Supply Fault Restart Delay (sec) Hold-off Time 16 V Get UINT Remaining Rapid Cycling Restart Delay Supply Fault - Time to Restart (sec) 100 NV Set/Get UINT Wire Config 0 = Three-phase 1 = Single-phase voltage and current 2 = Three-phase current only 101 NV Set/Get UINT PT Ratio Indicates a PT ratio:120 step-down Range = 0 to 8000, 0 indicates no PT connection TCP/IP Interface Object Class 245 (0xF5): Instance Count: 1 Instance List: 1 Table 33. Object Attributes Attrib NV Access 13 NV Set/Get UINT Encapsulation Inactivity Timeout Number of seconds of inactivity before TCP connection is closed Supported by CP and HVR only. 23

24 6.3 EtherNet/IP Object Model for C440 Overload Relay When the Ethernet module is connected to a C440 overload relay, the presented object model is compliant with the ODVA Motor Overload device profile (type: 0x3). Full Profile for C440 The table below shows the supported classes of the Ethernet Module when connected to an C440 overload relay. Class 0x01 (hex) 0x02 0x04 0x06 0x08 0x09 0x29 Object # of Instances Description Identity 1 Provides module identity object: See details below. Message Router Assembly Object Connection Manager Discrete Input Point Discrete Output Point Control Supervisor 1 Internal object implemented per ODVA specification 5 Binds attributes from multiple objects for access with a single Implicit (I/O) connection. See details below. 1 Internal object supporting connection management. Implemented per ODVA specification. 4 information for the discrete Inputs. See details in previous section. 2 and control for the discrete Outputs. See details In previous section. 1 Motor control functions. See details in previous section. 0x2C Overload 1 Motor overload protection. See details below. 0xF5 TCP/IP 1 Information about the TCP/IP Interface. Interface Implemented per ODVA specification. 0xF6 Ethernet Link 2 Ethernet link object for each of the 2 Ethernet ports on the device. Implemented per ODVA specification. Object Details Class 1 (0x01): Identity Object Instance Count: 1 Instance List: 1 Table 34. C440 Identity Object Instance Attributes Attrib NV Access 1 V Get UINT CIP Vendor ID 2 V Get UINT CIP Device Type 3 V Get UINT Product Code 4 V Get UINT Firmware Rev 5 V Get WORD Device 6 NV Set/Get UDINT Serial Number 7 V Get SHORT_ STRING Product Name 8 V Get USINT Device State 176 NV Set/Get SHORT_ STRING Assigned Name 177 V Get UINT C441 DSP FW Version 178 V Get UINT UI Firmware Version 179 NV Set/Get UINT C441 Unit ID ODVA assigned Vendor Identification number. CIP defined general product type. Vendor Product Code Com Adapter Firmware Rev. This attribute represents the current status of the entire devices. Its value changes as the state of the device changes. Bit = Definition 0 = Owned. True indicates the device has an owner. 2 = Configured. True indicates the application of the device has been configured to do something different than out of box default. Does not include communication configuration. 4-7 = Extended Device. 8 = Minor Recoverable Fault. True indicates the device detected a problem with itself, which is thought to be recoverable. 9 = Minor Unrecoverable Fault. True indicates the device detected a problem with itself, which is thought to be unrecoverable. 10 = Major Recoverable Fault. True indicates the device detected a problem with itself causing a Major Recoverable Fault state. 11 = Major Unrecoverable Fault. True indicates the device detected a problem with itself causing a Major Unrecoverable Fault state. 32 bit Com Adapter Device Serial Number. ASCII product name. Present state of the device. Value = Definition 0 = Nonexistent 1 = Device Self Testing 2 = Standby 3 = Operational 4 = Major Recoverable Fault 5 = Major Unrecoverable Fault 255 = Default for Get Attributes All. User defined ASCII name. C441 DSP Firmware Version User Interface Firmware Version Unit ID 0x00BA (186) - C441BA 0x00BB (187) - C441BB 0x00CA (202) - C441CA 0x00CB (203) - C441CB 0x00DA (218) - C441DA 0x00DB (219) - C441DB 0x00EA (234) - C (x) 0x00EB (235) - C (x) 24

25 User Manual MN E Class 4 (0x04): Assembly Object Instance Count: 6 Instance List: 2, 50, 105, 107, 120, 130 Table 35. C440 Assembly Object Instance Attributes 3 V Set/Get Array of BYTE Table 36. Assembly Instance List: Assembly. See sections below for instance definition. Type Instance Usage Name Output 2 Poll Basic Overload Output Input 50 Poll Fault Output 105 Poll Basic Overload Output w/relay Input 107 Poll Basic Overload Output w/io Input 120 Poll, Faults and Measurements Input 130 Poll Full and Measurements Assembly Instance Definitions: Table 37. C440 Assembly Instance 2 (0x02): Basic Overload Output Basic Overload Output Total Assembly (bytes): 1 Bit 2: Fault Reset Table 38. C440 Assembly Instance 50 (0x32): Fault Fault Total Assembly (bytes): 1 Bit 0: Faulted Table 41. C440 Assembly Instance 120 (0x78):, Faults and Measurements Assembly includes the C440 status, faults, current and thermal value. (bytes): 2 All data is little endian (low byte first) Device Latched Faults Scaled 3 Phase Ave Current Thermal Memory Percentage Total Assembly (bytes): 8 Device Bit Array Bit 0: Tripped Bit 1: unused Bit 2: Output #1 Bit 3: Output #2 Bit 4: Input #1 Bit 5: Input #2 Bit 6: Input #3 Bit 7: Input #4 Bit 8: Overload Power Lost Bit 9: Comm Adapter Low Voltage Bit 10: 1=Running, 0=Stopped or Tripped Bit 11-15: Reserved Faults are cleared when the device is either reset by the network or detects current flowing. The fault bits are defined as follows: Bit Feature 0 Overload Fault 1 Phase Imbalance 2 Phase Loss Fault 3 Ground Fault 4 Network Trip Command 5 NV Memory Failure 6-> Reserved Average of the 3 Scaled RMS Currents (Amps) Present Thermal Value. 100% equates to a trip condition. (%) Table 39. C440 Assembly Instance 105 (0x69): Basic Overload Output w/relay Basic Overload Output w/ Relay Total Assembly (bytes): 1 Basic Overload with Relays. Bit 0 = Relay Output 1 Bit 1 = Relay Output 2 Bit 2 = Fault Reset Bit 5 = Test Trip Table 40. C440 Assembly Instance 107 (0x6B): Basic Overload Output w/io Basic Overload Output w/io Total Assembly (bytes): 1 Basic Overload with Relays. 0 = Faulted 2 = Relay Output 1 3 = Relay Output 2 4 = Input 1 5 = Input 2 6 = Input 3 7 = Input 4 25

26 Table 42. C440 Assembly Instance 130 (0x82): Full and Measurements Assembly includes a full list of the most commonly used values. (bytes): 2. All data is little endian (low byte first) Device Device Bit Array Bit 0: Tripped Bit 1: Unused Bit 2: Output #1 Bit 3: Output #2 Bit 4: Input #1 Bit 5: Input #2 Bit 6: Input #3 Bit 7: Input #4 Bit 8: Overload Power Lost Bit 9: Comm Adapter Low Voltage Bit 10: 1=Running, 0=Stopped or Tripped Bit 11-15: Reserved Scaled Current Scaled RMS Current Phase A (Amps) Phase A RMS Scaled Current Scaled RMS Current Phase B (Amps) Phase B RMS Scaled Current Phase C RMS Scaled RMS Current Phase C (Amps) Scaled 3 Phase Ave Current Current as Percentage of FLA Phase Imbalance Percent Average of the 3 Scaled RMS Currents (Amps) Current as a Percentage of FLA. Ie: If Current is 1Amp and the FLA is 1AMP the percent would be 100%. (%) Percent of Measured Phase Imbalance (%) Line Frequency The Line Frequency Measured by the Device. The frequency is displayed in decihz. (Hertz) Thermal Memory Percentage Present Thermal Value. 100% equates to a trip condition. (%) Latched Faults Faults are cleared when the device is either reset by the network or detects current flowing. The fault bits are defined as follows: Bit Feature 0 Overload Fault 1 Phase Imbalance 2 Phase Loss Fault 3 Ground Fault 4 Network Trip Command 5 NV Memory Failure 6-> Reserved Feature States The feature status bits are defined as follows: Bit Feature 01 Class Index (00 = Class 10; 01 = Class 15; 10 = Class 20; 11 = Class 30) 2 Phase Loss/Imbalance Enabled 3 Ground Fault Enabled 4 Auto Reset Enabled 5 Remote Reset Active 6 Dip Switch Position 0 7 Dip Switch Position 1 8 Dip Switch Position 2 9 Dip Switch Position Reserved Device Temperature Scaled Ground Current RMS Ground Fault Percent Total Assembly (bytes): 28 The Temperature as Seen by the Microcontroller. Accuracy ~ 10%. ( C) Scaled Ground Current. (Amps) Percent of Ground Fault Measured. GF% = GFC / ((.5)*FLA) (%) Class 8 (0x08): Discrete Input Object Instance Count: 4 Instance List: 1, 2, 3, 4 Table 43. C440 Discrete Input Instance Attributes 3 Get BOOL Inputs 0 = Off 1 = On 101 NV Set/Get UDINT Field Inputs Debounce Class 9 (0x09): Discrete Output Object Instance Count: 2 Instance List: 1, 2 Table 44. C440 Discrete Output Instance Attributes Attrib NV Access 3 V Set/Get BOOL Field Relay Outputs 5 NV Set/Get BOOL Field Relay Fault Action 6 NV Set/Get BOOL Field Relay Fault State 7 NV Set/Get BOOL Field Relay Idle Action 8 NV Set/Get BOOL Field Relay Idle State Output point value Val = Description 0 = Off 1 = On The debounce applies to both rising and falling edge. (milliseconds) When a communication fault occurs the output can execute two types of behavior. Value = Description 0 = Apply Fault Value 1 = No Change Communication fault value to be applied. Value = Description 0 = Turn Relay Off 1 = Turn Relay On When a communication idle state occurs the relays can execute two types of behavior. Value = Description. 0 = Apply Idle Value 1 = No Change Communication idle value to be applied. Value = Description 0 = Turn Relay Off 1 = Turn Relay On 26

27 User Manual MN E Class 41 (0x29): Control Supervisor Object Instance Count: 1 Instance List: 1 Table 45. C440 Control Supervisor Instance Attributes Attrib NV Access 10 V Get BOOL Fault A Fault has occurred. Faults are latching and require a reset. 12 V Set/Get BOOL Fault Reset 0->1 Causes a reset. 17 V Set/Get BOOL Force Fault 0->1 = Force Fault 0 = No action 101 V Get WORD Device 102 V Get UINT Latched Faults 103 V Get USINT Motor Ctrl State 105 NV Set/Get BOOL Motor Ctrl Idle Loss Act Disable 106 NV Set/Get BOOL Motor Ctrl Com Idle Action Val 107 NV Set/Get BOOL Motor Ctrl Com Loss Act Disable 108 NV Set/Get BOOL Motor Ctrl Com Loss Action Val Device Bit Array Bit 0: Tripped Bit 1: Unused Bit 2: Output #1 Bit 3: Output #2 Bit 4: Input #1 Bit 5: Input #2 Bit 6: Input #3 Bit 7: Input #4 Bit 8: Overload Power Lost Bit 9: Comm Adapter Low Voltage Bit 10: 1=Running, 0=Stopped or Tripped Bit 11-15: Reserved Faults are cleared when the device is either reset by the network or detects current flowing The fault bits are defined as follows: Bit Feature 0 Overload Fault 1 Phase Imbalance 2 Phase Loss Fault 3 Ground Fault 4 Network Trip Command 5 NV Memory Failure 6-> Reserved Motor Control States: 0 = Stopped 1 = Running 2,3 = Tripped 4 = Resetting When this value is TRUE the motor state will be unchanged after a communication idle event. A FALSE value will cause the Motor Control Communication Idle Value to be applied on a com idle event. Action to execute when a communication loss event occurs. 0 = Ignore (No Change) 1 = Stop When this value is TRUE the motor state will be unchanged after a communication loss event. A FALSE value will cause the Motor Control Communication Loss Value to be applied on a com loss. Action to execute when a communication loss event occurs. 0 = Ignore (No Change) 1 = Stop Table 45. C440 Control Supervisor Instance Attributes (Cont.) Attrib NV Access 130 V Get UINT Feature States 131 V Get INT Device Temperature 132 V Get UINT Line Frequency 133 NV Set/Get UINT EtherNet/IP Comm Timeout The feature status bits are defined as follows: Bit Feature 01 Class Index (00 = Class 10; 01 = Class 15; 10 = Class 20; 11 = Class 30) 2 Phase Loss/Imbalance Enabled 3 Ground Fault Enabled 4 Auto Reset Enabled 5 Remote Reset Active 6 Dip Switch Position 0 7 Dip Switch Position 1 8 Dip Switch Position 2 9 Dip Switch Position Reserved The temperature as seen by the microcontroller. Accuracy ~ 10%. ( C) The line frequency measured by the device. The frequency is displayed in decihz. (Hertz) Range: 0 60,000 ms Default: 3000 ms 27

28 Class 44 (0x2C): Overload Object Instance Count: 1 Instance List: 1 Table 46. C440 Overload Object Instance Attributes 6 V Get USINT Phase Imbalance Percent 7 V Get USINT Thermal Memory Percentage Percent of Measured Phase Imbalance (%) Present Thermal Value. 100% equates to a trip condition. (%) 100 V Get USINT Overload Class The Present FLA Class. Class settings are device dependent. 105 V Get UINT Scaled FLA Setting 140 V Get UINT Scaled 3Phase Ave Current 141 V Get UINT Scaled Current Phase A RMS 142 V Get UINT Scaled Current Phase B RMS 143 V Get UINT Scaled Current Phase C RMS 144 V Get UINT Scaled Ground Current RMS 150 V Get UINT Scaled Max FLA 151 V Get UINT Scaled Min FLA 152 V Get UINT Current Scale Value 153 V Get UINT Current as Percentage of FLA 154 V Get USINT Ground Fault Percent The Present FLA Setting. The potentiometer selects this value. The value is scaled by the multiplier. (Amps) Average of the 3 Scaled RMS Currents (Amps) Scaled RMS Current Phase A (Amps) Scaled RMS Current Phase B (Amps) Scaled RMS Current Phase C (Amps) Scaled Ground Current. (Amps) This is the max FLA setting possible in this device. The value is scaled by the multiplier. (Amps) This is the min FLA setting possible in this device. The value is scaled by the multiplier. (Amps) This value indicates the multiplier applied to the current values. For example: If the multiplier is 10 then all currents are read out in deciamps. 1A => 10A. (Scale) Current as a percentage of FLA. Ie: If Current is 1Amp and the FLA is 1AMP the percent would be 100%. (%) Percent of Ground Fault measured. GF% = GFC / ((.5)*FLA) (%) 6.4 EtherNet/IP Object Model for Soft Starter When the Ethernet module is connected to an S611 soft starter, the presented object model is compliant with the ODVA Softstart Device profile (type: 0x17). Full Profile for S611 The table below shows the supported classes of the Ethernet Module when connected to an S611 soft starter. Class 0x01 (hex) 0x02 0x04 0x06 0x08 0x09 0x29 Object # of Instances Description Identity 1 Provides module identity object: See details in previous section. Message Router Assembly Object Connection Manager Discrete Input Point Discrete Output Point Control Supervisor 1 Internal object implemented per ODVA specification. 6 Binds attributes from multiple objects for access with a single Implicit (I/O) connection. See details below. 1 Internal object supporting connection management. Implemented per ODVA specification. 4 information for the discrete Inputs. See details in previous section. 2 and control for the discrete Outputs. See details In previous section. 1 Motor control functions. See details in previous section. 0x2C Overload 1 Motor overload protection. See details below. 0x2D SoftStart 1 Soft start object see details below. 0x93 Voltage Monitor 1 Vendor Specific object for monitoring motor voltage. See details below. 0xF5 TCP/IP Interface 1 Information about the TCP/IP Interface. Implemented per ODVA specification. 0xF6 Ethernet Link 2 Ethernet link object for each of the 2 Ethernet ports on the device. Implemented per ODVA specification. Object Details Class 1 (0x01): Identity Object Instance Count: 1 Instance List: 1 Table 47. S611 Identity Object Instance Attributes 1 V Get UINT CIP Vendor ID 2 V Get UINT CIP Device Type 3 V Get UINT Product Code 4 V Get UINT Firmware Rev ODVA Assigned Vendor Identification Number. CIP Defined General Product Type. Vendor Product Code Com Adapter Firmware Rev. 28

29 User Manual MN E Table 47. S611 Identity Object Instance Attributes (Cont.) 5 V Get WORD Device 6 NV Set/Get UDINT Serial Number 7 V Get SHORT_ STRING Product Name 8 V Get USINT Device State 176 NV Set/Get SHORT_ STRING Assigned Name 177 V Get UINT C441 DSP FW Version 178 V Get UINT UI Firmware Version 179 NV Set/Get UINT C441 Unit ID This attribute represents the current status of the entire devices. Its value changes as the state of the device changes. Bit = Definition 0 = Owned. True indicates the device has an owner. 2 = Configured. True indicates the application of the device has been configured to do something different than out of box default. Does not include communication configuration. 4-7 = Extended Device. 8 = Minor Recoverable Fault. True indicates the device detected a problem with itself, which is thought to be recoverable. 9 = Minor Unrecoverable Fault. True indicates the device detected a problem with itself, which is thought to be unrecoverable. 10 = Major Recoverable Fault. True indicates the device detected a problem with itself causing a Major Recoverable Fault state. 11 = Major Unrecoverable Fault. True indicates the device detected a problem with itself causing a Major Unrecoverable Fault state. 32 bit Com Adapter Device Serial Number. ASCII Product Name. Present State of the Device. Value = Definition 0 = Nonexistent 1 = Device Self Testing 2 = Standby 3 = Operational 4 = Major Recoverable Fault 5 = Major Unrecoverable Fault 255 = Default for Get Attributes All. User Defined ASCII Name. C441 DSP Firmware Version User Interface Firmware Version Unit ID 0x00BA (186) - C441BA 0x00BB (187) - C441BB 0x00CA (202) - C441CA 0x00CB (203) - C441CB 0x00DA (218) - C441DA 0x00DB (219) - C441DB 0x00EA (234) - C (x) 0x00EB (235) - C (x) Class 4 (0x04): Assembly Object Instance Count: 10 Instance List: 3, 60, 100, 105, 106, 107, 108, 121, 131, 133 Table 48. S611 Assembly Instance Attributes 3 V Set/Get Array of BYTE Assembly. See sections below for instance definition. Table 49. S611 Assembly Instance List: Type Instance Usage Name Output 3 Poll Basic Softstarter Input 60 Poll Basic Softstarter Input Input 100 Poll and Current Output 105 Poll Basic Overload w/relay Output 106 Poll Extended Motor Ctrl Input 107 Poll Extended Overload w/ IO Input 108 Poll Motor Ctrl w/io Input 121 Poll Measurement and Thermal Input 131 Poll and Enhanced Measurement Input 133 Poll Full S611 Monitoring Assembly Instance Definitions: Table 50. S611 Assembly Instance 3 (0x03): Basic Softstarter Basic Softstarter Total Assembly (bytes): 1 Basic Softstart Assembly. Bit 0 = Run 1 Bit 2 = Fault Reset Table 51. S611 Assembly Instance 60 (0x3C): Basic Softstarter Input Basic Softstarter Input Total Assembly (bytes): 1 Basic Softstart. Bit 0 = Faulted Bit 2 = Running1 Bit 7 = Bypass (at Reference) Table 52. S611 Assembly Instance 100 (0x64): and Current Assembly includes the status overview and motor current levels. (bytes): 2 All data is little endian (low byte first) Device Device Bit Array, Bit: 0: Fault 1: Bypass 2: Running1 3: S611 Run/Aux Relay (Relay 1) 4: S611 Fault Relay (Relay 2) 5: CtrlFromNet 6: Permissive 7: Reserved 8: Output #1 9: Output #2 10: Input #1 11: Input #2 12: Input #3 13: Input #4 14: DeviceNet Low Power 15: S611 Intercom Lost Phase A RMS Scaled RMS current of phase A. (Amps) Current Phase B RMS Scaled RMS current of phase B. (Amps) Current Phase C RMS Scaled RMS current of phase C. (Amps) Current Total Assembly (bytes): 8 29

30 Table 53. S611 Assembly Instance 105 (0x69): Basic Overload w/ Relay Basic Overload w/ Relay Total Assembly (bytes): 1 Basic Overload with Relays Bit 0 = Relay Output 1 Bit 1 = Relay Output 2 Bit 2 = Fault Reset Table 54. S611 Assembly Instance 106 (0x6A): Extended Motor Ctrl Extended Motor Ctrl Total Assembly (bytes): 1 Extended Motor Control 0 = Run 1 1 = Permissive 2 = Fault Reset 6 = Output 1 7 = Output 2 Table 55. S611 Assembly Instance 107 (0x6B): Extended Overload w/ IO Extended Overload w/ IO Total Assembly (bytes): 1 Extended Overload Assembly with IO. 0 = Fault 2 = Output 1 3 = Output 2 4 = Input 1 5 = Input 2 6 = Input 3 7 = input 4 Table 56. S611 Assembly Instance 108 (0x6C): Motor Ctrl w/io Table 57. S611 Assembly Instance 121 (0x79): Measurement and Thermal Includes the motor Ave Current, Thermal value and Ave Voltage monitoring. (bytes): 2. All data is little endian (low byte first) Device Average Current Average Voltage Trip Reason Total Assembly (bytes): 8 Device Bit Array, Bit: 0: Fault 1: Bypass 2: Running1 3: S611 Run/Aux Relay (Relay 1) 4: S611 Fault Relay (Relay 2) 5: CtrlFromNet 6: Permissive 7: Reserved 8: Output #1 9: Output #2 10: Input #1 11: Input #2 12: Input #3 13: Input #4 14: DeviceNet Low Power 15: S611 Intercom Lost Average of the 3 Scaled RMS Currents. (Amps) Average of the 3 Scaled RMS Voltages (Volts) 0 = Overload 1 = Jam 2 = Stall 3 = Current Imbalance 4 = Load Disconnect 5 = Phase Loss 6 = Mains Fault 7 = Phase Reversal 8 = Shorted SCR 9 = SCR Not Firing 10 = Pole Overtemp 11 = Bypass Dropout 12 = SCR Overcurrent 13 = Contactor Overcurrent 14 = Communication Fault 15 = Other Device Fault Motor Ctrl w/io Total Assembly (bytes): 2 Motor Control Input Assembly. 0 = Fault 1 = Bypass 2 = Running 1 3 = S611 Run/Aux Relay 4 = S611 Fault Relay 5 = Control From Net 6 = Permissive 8 = Output 1 9 = Output 2 10 = Input 1 11 = Input 2 12 = Input 3 13 = Input 4 15 = S611 Internal Com Lost 30

31 User Manual MN E Table 58. S611 Assembly Instance 131 (0x83): and Enhanced Measurement Includes the motor Current, Thermal value and Voltage monitoring. (bytes): 2 All data is little endian (low byte first). (bytes) Name Description Device Device Bit Array, Bit: 0: Fault 1: Bypass 2: Running1 3: S611 Run/Aux Relay (Relay 1) 4: S611 Fault Relay (Relay 2) 5: CtrlFromNet 6: Permissive 7: Reserved 8: Output #1 9: Output #2 10: Input #1 11: Input #2 12: Input #3 13: Input #4 14: DeviceNet Low Power 15: S611 Intercom Lost Phase A RMS Scaled RMS Current of Phase A. (Amps) Current Phase B RMS Scaled RMS Current of Phase B. (Amps) Current Phase C RMS Current Scaled RMS Current of Phase C. (Amps) Overload Thermal Memory Average Current Vab RMS Voltage Vbc RMS Voltage Vca RMS Voltage Average Voltage Total Assembly (bytes): 20 Thermal Capacity 0% Cold Motor 100% Will Cause an Overload Trip (%) Average of the 3 Scaled RMS Currents. (Amps) RMS Line-to-line Voltage Measured Between Phase A and B. (Volts) RMS Line-to-line Voltage Measured Between Phase B and C. (Volts) RMS Line-to-line Voltage Measured Between Phase C and A. (Volts) Average of the 3 Scaled RMS Voltages (Volts) Table 59. S611 Assembly Instance 133 (0x85): Full S611 Monitoring Includes the most common measurement values. (bytes): 2 All data is little endian (low byte first). (bytes) Name Description Device Device Bit Array, Bit: 0: Fault 1: Bypass 2: Running1 3: S611 Run/Aux Relay (Relay 1) 4: S611 Fault Relay (Relay 2) 5: CtrlFromNet 6: Permissive 7: Reserved 8: Output #1 9: Output #2 10: Input #1 11: Input #2 12: Input #3 13: Input #4 14: DeviceNet Low Power 15: S611 Intercom Lost Phase A RMS Scaled RMS Current of Phase A. (Amps) Current Phase B RMS Scaled RMS Current of Phase B. (Amps) Current Phase C RMS Scaled RMS Current of Phase C. (Amps) Current Field Inputs A bitfield representing the input points. 0 = Input 1 1 = Input 2 2 = Input 3 3 = Input Average Current Vab RMS Voltage Vbc RMS Voltage Vca RMS Voltage Average Voltage Average of the 3 Scaled RMS Currents. (Amps) RMS Line-to-line Voltage Measured Between Phase A and B. (Volts) RMS Line-to-line Voltage Measured Between Phase B and C. (Volts) RMS Line-to-line Voltage Measured Between Phase C and A. (Volts) Average of the 3 Scaled RMS Voltages (Volts) Total Kilowatts Scaled Total Kilowatts. Scale Factor is x10 (kw) Voltage Voltage Unbalance Percent. (%) Unbalance Current Percent Current Phase Imbalance. (%) Unbalance Apparent Power Factor Apparent Power Factor * Residual Ground Fault Current Scaled Residual Ground Fault Current. Scaling = x Line Frequency Scaled Line Frequency. Scaling is x100. (Hz) 31

32 Table 59. S611 Assembly Instance 133 (0x85): Full S611 Monitoring (Cont.) (bytes) Name Description Trip Reason 0 = Overload 1 = Jam 2 = Stall 3 = Current Imbalance 4 = Load Disconnect 5 = Phase Loss 6 = Mains Fault 7 = Phase Reversal 8 = Shorted SCR 9 = SCR Not Firing 10 = Pole Overtemp 11 = Bypass Dropout 12 = SCR Overcurrent 13 = Contactor Overcurrent 14 = Communication Fault 15 = Other Device Fault Motor Motor Control Bits: 0 = Run 2 = In Bypass 5 = Fault 11 = Relay 1 State 12 = Relay 2 State 13 = Control From Network 14 = Permissive State Pole Temp Average Power Pole Temperature. Scaled = x10 ( C) Power Sign Indicates Whether Power is Positive or Negative. In the Case of a Generator Current Scale Factor Overload Thermal Memory Total Assembly (bytes): 44 Scale Factor for Current. Use this Value to Scale the Current Values. Thermal Capacity 0% Cold Motor 100% Will Cause an Overload Trip (%) Class 9 (0x09): Discrete Output Object Instance Count: 2 Instance List: 1, 2 Table 61. S611 Discrete Output Instance Attributes 3 V Set/Get BOOL Field Relay Outputs 5 NV Set/Get BOOL Field Relay Fault Action 6 NV Set/Get BOOL Field Relay Fault State 7 NV Set/Get BOOL Field Relay Idle Action 8 NV Set/Get BOOL Field Relay Idle State Output Point Value. Val = Description 0 = Off 1 = On When a communication fault occurs the output can execute two types of behavior. 0 = Apply Fault Value 1 = No Change Communication fault value to be applied. Value = Description 0 = Turn Relay Off 1 = Turn Relay On When a communication idle state occurs the relays can execute two types of behavior. Value = Description 0 = Apply Idle Value 1 = No Change Communication idle value to be applied. Value = Description 0 = Turn Relay Off 1 = Turn Relay On Class 8 (0x08): Discrete Input Object Instance Count: 4 Instance List: 1, 2, 3, 4 Table 60. S611 Discrete Input Instance Attributes 101 NV Set/Get UDINT Field Inputs Debounce The debounce applies to both rising and falling edge. (milliseconds). 32

33 User Manual MN E Class 41 (0x29): Control Supervisor Object Instance Count: 1 Instance List: 1 Table 62. S611 Control Supervisor Instance Attributes 3 V Set/Get BOOL Run1 Run the softstarter. 7 V Get BOOL Running1 Indicates if the motor is running. 10 V Get BOOL Fault A Fault has occurred. Faults are latching and require a reset. 12 V Set/Get BOOL Fault Reset 0->1 Causes a reset. 13 V Get UINT Fault Code If in faulted state, faultcode indicates the fault that caused the transition to the faulted state. 15 V Get BOOL Control from Net Control is coming from the network. 101 V Get WORD Device Device Bit Array, Bit: 0: Fault 1: Bypass 2: Running1 3: S611 Run/Aux Relay (Relay 1) 4: S611 Fault Relay (Relay 2) 5: CtrlFromNet 6: Permissive 7: Reserved 8: Output #1 9: Output #2 10: Input #1 11: Input #2 12: Input #3 13: Input #4 14: DeviceNet Low Power 15: S611 Intercom Lost 102 V Get UINT Trip Reason 0 = Overload 1 = Jam 2 = Stall 3 = Current Imbalance 4 = Load Disconnect 5 = Phase Loss 6 = Mains Fault 7 = Phase Reversal 8 = Shorted SCR 9 = SCR Not Firing 10 = Pole Overtemp 11 = Bypass Dropout 12 = SCR Overcurrent 13 = Contactor Overcurrent 14 = Communication Fault 15 = Other Device Fault 103 V Get UINT Motor Motor Control Bits: 0 = Run 2 = In Bypass 5 = Fault 11 = Relay 1 State 12 = Relay 2 State 13 = Control From Network 14 = Permissive State 105 NV Set/Get UINT Network Timeout 106 NV Set/Get UINT Communication Loss Behavior Network Watchdog or Timeout enable. 0 = Disable 1 = Enable 1 = Fault 2 = Hold last state 3 = Stop (1) Table 62. S611 Control Supervisor Instance Attributes (Cont.) 107 NV Set/Get BOOL Motor Ctrl Com Loss Act Disable 108 NV Set/Get BOOL Motor Ctrl Com Loss Action Val When this value is TRUE the motor state will be unchanged after a communication loss event. A FALSE value will cause the Motor Control Communication Loss Value to be applied on a com loss. Action to execute when a communication loss event occurs. 0 = Ignore (No Change) 1 = Stop 109 V Get UINT Fault Code Fault Code and Fault Code List. When read as a single item it is the most recent fault. When read as a list, faults are listed in history order. Newest are at the beginning, oldest are at the end of the list. If the device is in the Faulted state, Fault Code indicates the fault that caused the transition to Faulted state. If not in the Faulted state, the Fault Code indicates the fault that caused the last transition to the Faulted state. 110 V Get UINT Fault Code Entry V Get UINT Fault Code Entry V Get UINT Fault Code Entry V Get UINT Fault Code Entry V Get UINT Fault Code Entry V Get UINT Fault Code Entry V Get UINT Fault Code Entry V Get UINT Fault Code Entry V Get UINT Fault Code Entry V Set/Get BOOL Clear Fault Queue 120 NV Set/Get UINT Fault Enable Bits Set this parameter to TRUE to clear the fault queue. Fault Enable Bits: 0 = Overload 1 = Jam 2 = Stall 3 = Current Imbalance 4 = Load Disconnect 5 = Phase Loss 6 = Under Voltage 7 = Over Voltage 8 = Voltage Unbalance 9 = Phase Reversal 10 = Ground Fault 11 = Overload On Start 12 = Shorted SCR 13 = SCR Not Firing 14 = Over Temperature 150 V Set/Get UINT Motor Control Motor Control Bits: 0 = Run 2 = Permissive 3 = Reset 151 NV Set/Get UINT Start Input Behavior 152 NV Set/Get UINT Fault Relay Config Selects the behavior for the start input. When edge is selected, a start will only be performed on the rising edge of the start input. When level is selected, a start will occur any time the input is high. 0 = Edge 1 = Level Fault Relay Configuration: 0 = Faulted 1 = Not Faulted 33

34 Table 62. S611 Control Supervisor Instance Attributes (Cont.) 153 NV Set/Get UINT Auxiliary Relay Configuration 154 NV Set/Get UINT User Interface Display Config Auxiliary Relay Configuration Behavior: 0 = Faulted 1 = Not Faulted 2 = Bypass 3 = Not In Bypass 4 = Motor Energized 5 = Motor Not Energized User Interface Display Configuration. Value = Description 0 = Thermal Capacity 1 = Power Factor 2 = Line Frequency 3 = Current Unbal % 4 = Voltage Unbalance % 5 = Average pole temp 6 = Pole A Temp 7 = Pole B Temp 8 = Pole C Temp 155 NV Set/Get UINT UI Edit Lock Provides the ability to prevent the user interface from making configuration changes. 0 = Unlocked 1 = Locked 156 V Set/Get UINT Command 157 NV Set/Get UINT Communication Loss Timeout 158 NV Set/Get UINT EtherNet/IP Comm Timeout 1 = Clear Motor Run Hours 2 = Clear Motor Start Count 3 = Clear fault queue 255 = Force Overload Rest (TP = 0) 250 = Force Comm Fault (unpublished) Communication Loss Timeout Value (milliseconds) Range: 0 60,000 ms Default: 3000 ms Class 44 (0x2C): Overload Object Instance Count: 1 Instance List: 1 Table 63. S611 Overload Object Instance Attributes 4 NV Set/Get USINT Overload Class Overload Trip Class Setting. 6 V Get USINT Current Unbalance 7 V Get USINT Overload Thermal Memory Percent Current Phase Imbalance. (%) Thermal Capacity 0% Cold Motor 100% Will Cause an Overload Trip (%) 101 V Get UINT Total Run Time Run Time in Hours. Total run time can be reset through the command parameter. (Hours) 102 V Get UINT Number of Starts 105 NV Set/Get UINT Scaled Overload FLA 106 V Get UINT Apparent Power Factor Total number of starts can be reset through the command parameter. Scaled Overload FLA. Scaling factor is x10. (Amps) Apparent Power Factor * V Get UINT Total Kilowatts Scaled Total Kilowatts. Scale factor is x10 (kw) 119 NV Set/Get UINT Current Unbalance Trip Delay 120 V Get UINT Current Unbalance Trip Delay Applied to the Unbalance Trip. (Seconds) Percent Current Phase Imbalance. (%) 121 NV Set/Get UINT Jam Trip Delay Jam Trip Delay in Seconds. (seconds) 122 NV Set/Get UINT Jam Trip Level Jam Trip Level Set in Percent of FLA. (%) 123 NV Set/Get UINT Phase Loss Trip Delay Trip Delay Applied to the Phase Loss Trip Sense. (seconds) 130 NV Set/Get UINT Reset Mode Method of Reset. 0 = Manual 1 = Auto 140 V Get UINT Average Current Average of the 3 Scaled RMS Currents. (Amps) 141 V Get UINT Phase A RMS Current 142 V Get UINT Phase B RMS Current 143 V Get UINT Phase C RMS Current 144 V Get UINT Residual Ground Fault Current 152 V Get UINT Current Scale Factor 170 NV Set/Get UINT Load Disconnect Trip Level 171 NV Set/Get UINT Load Disconnect Trip Delay 172 NV Set/Get UINT Load Disconnect Source 173 NV Set/Get UINT Phase Loss Trip Level Scaled RMS Current of Phase A. (Amps) Scaled RMS Current of Phase B. (Amps) Scaled RMS Current of Phase C. (Amps) Scaled Residual Ground Fault Current. Scaling = x100 Scale Factor for Current. Use this value to scale the current values. Load Disconnect Trip Level as a Percent of Rated FLA. (%) Load Disconnect Trip Delay in Seconds. (seconds) Load Disconnect Source: 0 = Under Power 1 = Under Current Trip Level for a Phase Imbalance Trip. (%) 174 NV Set/Get UINT Stall Trip Level Stall Trip Level in Percent of FLA. (%) 175 V Get INT Power Sign Indicates whether power is positive or negative. In the case of a generator. 176 NV Set/Get UINT Residual GF Start Delay Length of time before the device will begin to acknowledge the ground fault current. (seconds) 34

35 User Manual MN E Class 45 (0x2D): Softstart Object Instance Count: 1 Instance List: 1 Table 64. S611 Softstart Object Instance Attributes 3 V Get BOOL At Ref Indicates whether the softstart is in bypass or not. 4 NV Set/Get USINT Soft Start Method Selects the Ramp Start Method. 1=Voltage Ramp (no current limit) 2=Current Limit (no voltage ramp) 100=Pump start 7 NV Set/Get UINT Start Time Motor Start Ramp Time. (deciseconds) 13 NV Set/Get USINT Kick Start Time 14 NV Set/Get UINT Kick Start Initial Torque The Amount of Time to Apply a Kick Start. (deciseconds) Initial Torque Value for the Kick Start. (%) 16 NV Set/Get UINT Stop Time Motor Stop Ramp Time. Minimum time of 0 without pump option. Minimum time of 50 with pump stop enabled (deciseconds) 101 V Get INT Phase A Pole Temp 102 V Get INT Phase B Pole Temp 103 V Get INT Phase C Pole Temp Power Pole Temperature. Scaled = x10 ( C) Power Pole Temperature. Scaled = x10 ( C) Power Pole Temperature. Scaled = x10 ( C) 104 V Get INT Pole Temp Average Power Pole Temperature. Scaled = x10 ( C) 105 NV Set/Get UINT Initial Motor Torque Starting (Initial) Torque Percent. 106 NV Set/Get UINT Pump Stop Time 107 NV Set/Get UINT Start Method 108 NV Set/Get UINT Phase Sequence If supported, the amount of time to use for the pump stop ramp behavior. (seconds) Motor Start Method 0 = Vramp 1 = Limit 2 = Pump Note: If special function bit 0 is set, then pump option is available and set as the default, otherwise ramp start (0) is default Line Voltage Phase Sequence: 1 = ABC 2 = ACB 6.5 EtherNet/IP Object Model for S811+ Soft Starter When the Ethernet module is connected to an S811+ soft starter, the presented object model is compliant with the ODVA Softstart Device profile (type: 0x17). Full Profile for S811+ The table below shows the supported classes of the Ethernet Module when connected to an S811+ Soft Starter. Class 0x01 (hex) 0x02 0x04 0x06 0x08 0x09 0x0A 0x29 Object # of Instances Description Identity 1 Provides module identity object: See details in previous section. Message Router Assembly Object Connection Manager Discrete Input Point Discrete Output Point Analog Input Point Control Supervisor 1 Internal object implemented per ODVA specification 16 Binds attributes from multiple objects for access with a single Implicit (I/O) connection. See details below. 1 Internal object supporting connection management. Implemented per ODVA specification 4 information for the discrete Inputs. See details in previous section. 2 and control for the discrete Outputs. See details In previous section. 1 and control for the Analog Input. See details below. 1 Motor control functions. See details In previous section. 0x2C Overload 1 Motor overload protection. See details below. 0x20 SoftStart 1 Soft start object, See details below. 0x93 Voltage Monitor 1 Vendor Specific object for monitoring motor voltage. See details below. 0xF5 0xF6 TCP/IP Interface Ethernet Link Object Details Class 1 (0x01): Identity Object Instance Count: 1 Instance List: 1 1 Information about the TCP/IP Interface. Implemented per ODVA specification 2 Ethernet link object for each of the 2 Ethernet ports on the device. Implemented per ODVA specification. Table 65. S811+ Identity Object Instance Attributes 1 V Get UINT CIP Vendor ID 2 V Get UINT CIP Device Type 3 V Get UINT Product Code 4 V Get UINT Firmware Rev ODVA Assigned Vendor Identification Number. CIP Defined General Product Type. Vendor Product Code Com Adapter Firmware Rev. 35

36 Table 65. S811+ Identity Object Instance Attributes (Cont.) 5 V Get WORD Device 6 NV Set/Get UDINT Serial Number 7 V Get SHORT_ STRING Product Name 8 V Get USINT Device State 176 NV Set/Get SHORT_ STRING Assigned Name 177 V Get UINT C441 DSP FW Version 178 V Get UINT UI Firmware Version 179 NV Set/Get UINT C441 Unit ID This attribute represents the current status of the entire devices. Its value changes as the state of the device changes. Bit = Definition 0 = Owned. True indicates the device has an owner. 2 = Configured. True indicates the application of the device has been configured to do something different than out of box default. Does not include communication configuration. 4-7 = Extended Device. 8 = Minor Recoverable Fault. True indicates the device detected a problem with itself, which is thought to be recoverable. 9 = Minor Unrecoverable Fault. True indicates the device detected a problem with itself, which is thought to be unrecoverable. 10 = Major Recoverable Fault. True indicates the device detected a problem with itself causing a Major Recoverable Fault state. 11 = Major Unrecoverable Fault. True indicates the device detected a problem with itself causing a Major Unrecoverable Fault state. 32 bit Com Adapter Device Serial Number. ASCII Product Name. Present State of the Device. Value = Definition 0 = Nonexistent 1 = Device Self Testing 2 = Standby 3 = Operational 4 = Major Recoverable Fault 5 = Major Unrecoverable Fault 255 = Default for Get Attributes All. User Defined ASCII Name. C441 DSP Firmware Version User Interface Firmware Version Unit ID 0x00BA (186) - C441BA 0x00BB (187) - C441BB 0x00CA (202) - C441CA 0x00CB (203) - C441CB 0x00DA (218) - C441DA 0x00DB (219) - C441DB 0x00EA (234) - C (x) 0x00EB (235) - C (x) Class 4 (0x04): Assembly Object Instance Count: 14 Instance List: 5, 60, 61, 101, 102, 110, 111, 120, 121, 130, 131, 140, 141, V Set/Get Array of BYTE Table 66. Assembly Instance List: Assembly. See sections below for instance definition. Type Instance Usage Name Output 5 (0x05) Poll Extended Softstarter Output Input 60 (0x3C) Poll Basic Softstarter Input Input 61 (0x3D) Poll Extended Softstarter Input Output 101 (0x65) Poll Extended Softstarter Output with Relay Outs Input 102 (0x66) Poll Device Input 110 (0x6E) Poll and Current(A) Input 111 (0x6F) Poll and Current(0.1A) Input 120 (0x78) Poll measurement and Thermal, Current in Amps Input 121 (0x79) Poll measurement and Thermal. Current in 0.1A Input 130 (0x82) Poll,Current,Voltage,Thermal, Current in Amps Input 131 (0x83) Poll,Current,Voltage,Thermal, Current in 0.1A Input 140 (0x8C) Poll Full S811 Monitoring, Current in Amps Input 141 (0x8D) Poll Full S811 Monitoring, Current in 0.1A Input 150 (0x96) Poll S811 Assembly Instance Definitions: All Assembly data is little endian (low byte first). Table 67. Assembly Instance 5 (0x05): Extended Softstarter Output Extended Softstarter Total Assembly (bytes): 1 Extended softstart assembly. 0 = Run 1 1 = Run 2 (Ramp2) 2 = Fault Reset 36

37 User Manual MN E Table 68. Assembly Instance 60 (0x3C): Basic Softstarter Input Basic Softstarter Input Total Assembly (bytes): 1 Basic softstart Input. 0 = Faulted 2 = Running1 7 = Bypass (at reference) Table 69. Assembly Instance 61 (0x3D): Extended Softstarter Input Extended Softstarter Input Total Assembly (bytes): 1 Extended Softstart Input 0 = Faulted 1 = Warning 2 = Running1 3 = Running2 (Ramp2) 4 = Ready 5 = CtrlFromNet 7 = Bypass (at reference). Table 72. Assembly Instance 110 (0x6E): and Current (A) Assembly includes the status overview and motor current levels scaled in Amps. (bytes): Device Ph RMS Line Current (amps) Total Assembly (bytes): 8 Device Bit Array 0 Running - RUN command active 1 Jogging - Jog command active 2 Permissive - Start allowed (must be 1 to start) 3 Ramp2 - Ramp2 settings active 4 Local Control (0 - network; 1 - local) 5 Faulted - S811+ fault present 6 Warning - S811+ warning present (self clearing) 7 In bypass - S811+ Bypass closed 8 = Output 1 9 = Output 2 10 = Input 1 11 = Input 2 12 = Input 3 13 = Input 4 14 = Alarm No Trip Enabled 15 = S811+ Internal Comm Loss Scaled RMS 3phase line current - This is the actual current flowing to the motor in 1.0A. Table 70. Assembly Instance 101 (0x65): Extended Softstarter Output with Relay Outs Extended Softstarter Total Assembly (bytes): 1 Extended softstart assembly w relay outputs. 0 = Run 1 1 = Run 2 (Ramp2) 2 = Fault Reset 4 = C441 Q1 relay out 5 = C441 Q2 relay out Table 71. Assembly Instance 102 (0x66): Device Device Total Assembly (bytes): 2 Device Bit Array 0 Running - RUN command active 1 Jogging - Jog command active 2 Permissive - Start allowed (must be 1 to start) 3 Ramp2 - Ramp2 settings active 4 Local Control (0 - network; 1 - local) 5 Faulted - S811+ fault present 6 Warning - S811+ warning present (self clearing) 7 In bypass - S811+ Bypass closed 8 = Output 1 9 = Output 2 10 = Input 1 11 = Input 2 12 = Input 3 13 = Input 4 14 = Alarm No Trip Enabled 15 = S811+ Internal Comm Loss Table 73. Assembly Instance 111 (0x6F): and Current (0.1A) Assembly includes the status overview and motor current levels scaled in 0.1As. (bytes): 2 (bytes) Name Description Device Device Bit Array 0 Running - RUN command active 1 Jogging - Jog command active 2 Permissive - Start allowed (must be 1 to start) 3 Ramp2 - Ramp2 settings active 4 Local Control (0 - network; 1 - local) 5 Faulted - S811+ fault present 6 Warning - S811+ warning present (self clearing) 7 In bypass - S811+ Bypass closed 8 = Output 1 9 = Output 2 10 = Input 1 11 = Input 2 12 = Input 3 13 = Input 4 14 = Alarm No Trip Enabled 15 = S811+ Internal Comm Loss Ph RMS Line Current (deciamps) Total Assembly (bytes): 8 Scaled RMS 3phase line current - This is the actual current flowing to the motor in 0.1A. 37

38 Table 74. Assembly Instance 120 (0x78): measurement and Thermal (A) Includes the Motor status, motor Ave Current scaled in Amps and Thermal value (bytes): 2 (bytes) Name Description Device Device Bit Array 0 Running - RUN command active 1 Jogging - Jog command active 2 Permissive - Start allowed (must be 1 to start) 3 Ramp2 - Ramp2 settings active 4 Local Control (0 - network; 1 - local) 5 Faulted - S811+ fault present 6 Warning - S811+ warning present (self clearing) 7 In bypass - S811+ Bypass closed 8 = Output 1 9 = Output 2 10 = Input 1 11 = Input 2 12 = Input 3 13 = Input 4 14 = Alarm No Trip Enabled 15 = S811+ Internal Comm Loss Ph Ave Line Current (amps) % Thermal Pile used Motor Control Faults Total Assembly (bytes): 8 Scaled RMS average of the 3 phase line current - This is the actual current flowing to the motor in 1.0A. Thermal Pile Used Percentage - Trip at 100% S811+ Motor Control Fault Bit Field Bit Fault 0 Phaseloss 1 Phase Imbalance 2 Thermal Pile 3 Overcurrent 4 Breaker Fault 5 GND Fault 6 Motor Stall 7 Motor Jam 8 OverTemp 9 UnderLoad 10 Reserved 11 Estop 12 Reserved 13 Reserved 14 Reserved 15 Other Table 75. Assembly Instance 121 (0x79): measurement and Thermal (0.1A) Includes the Motor status, motor Ave Current scaled in 0.1A and Thermal value (bytes): Device Ph Ave Line Current (deciamps) % Thermal Pile used Motor Control Faults Total Assembly (bytes Device Bit Array 0 Running - RUN command active 1 Jogging - Jog command active 2 Permissive - Start allowed (must be 1 to start) 3 Ramp2 - Ramp2 settings active 4 Local Control (0 - network; 1 - local) 5 Faulted - S811+ fault present 6 Warning - S811+ warning present (self clearing) 7 In bypass - S811+ Bypass closed 8 = Output 1 9 = Output 2 10 = Input 1 11 = Input 2 12 = Input 3 13 = Input 4 14 = Alarm No Trip Enabled 15 = S811+ Internal Comm Loss Scaled RMS average of the 3 phase line current - This is the actual current flowing to the motor in 0.1A. Thermal Pile Used Percentage - Trip at 100% S811+ Motor Control Fault Bit Field Bit Fault 0 Phaseloss 1 Phase Imbalance 2 Thermal Pile 3 Overcurrent 4 Breaker Fault 5 GND Fault 6 Motor Stall 7 Motor Jam 8 OverTemp 9 UnderLoad 10 Reserved 11 Estop 12 Reserved 13 Reserved 14 Reserved 15 Other 38

39 User Manual MN E Table 76. Assembly Instance 130 (0x82):,Current,Voltage,Thermal (A) Assembly includes the status overview, motor current levels scaled in Amps, Pole Voltages & Thermal. (bytes): 2 (bytes) Name Device Ph RMS Line Current (amps) % Thermal Pile used Average current as % FLA Ph RMS Mains Voltage Total Assembly (bytes): 18 Description Device Bit Array 0 Running - RUN command active 1 Jogging - Jog command active 2 Permissive - Start allowed (must be 1 to start) 3 Ramp2 - Ramp2 settings active 4 Local Control (0 - network; 1 - local) 5 Faulted - S811+ fault present 6 Warning - S811+ warning present (self clearing) 7 In bypass - S811+ Bypass closed 8 = Output 1 9 = Output 2 10 = Input 1 11 = Input 2 12 = Input 3 13 = Input 4 14 = Alarm No Trip Enabled 15 = S811+ Internal Comm Loss Scaled RMS 3phase line current - This is the actual current flowing to the motor in 1.0A. Thermal Pile Used Percentage - Trip at 100% Average of the 3 phase current as a percentage of the Motor Nameplate fla setting 3 Phase RMS Mains voltage reading (in volts) Table 77. Assembly Instance 131 (0x83):,Current,Voltage,Thermal (0.1A) Assembly includes the status overview, motor current levels scaled in 0.1A, Pole Voltages & Thermal. (bytes): Device Ph RMS Line Current (deciamps) % Thermal Pile used Average current as % FLA Ph RMS Mains Voltage Total Assembly (bytes): 18 Device Bit Array 0 Running - RUN command active 1 Jogging - Jog command active 2 Permissive - Start allowed (must be 1 to start) 3 Ramp2 - Ramp2 settings active 4 Local Control (0 - network; 1 - local) 5 Faulted - S811+ fault present 6 Warning - S811+ warning present (self clearing) 7 In bypass - S811+ Bypass closed 8 = Output 1 9 = Output 2 10 = Input 1 11 = Input 2 12 = Input 3 13 = Input 4 14 = Alarm No Trip Enabled 15 = S811+ Internal Comm Loss Scaled RMS 3phase line current - This is the actual current flowing to the motor in 0.1A. Thermal Pile Used Percentage - Trip at 100% Average of the 3 phase current as a percentage of the Motor Nameplate fla setting 3 Phase RMS Mains voltage reading (in volts) 39

40 Table 78. Assembly Instance 140 (0x8C): Full S811 Monitoring, Current in Amps Includes the most common measurement values. Current values scaled in Amps (bytes): Device Ph RMS Line Current (amps) Ph Ave Line Current (amps) Average current as % FLA % Thermal Pile used Ph RMS Mains Voltage Ave 3Ph Real Power (kw) Device Bit Array 0 Running - RUN command active 1 Jogging - Jog command active 2 Permissive - Start allowed (must be 1 to start) 3 Ramp2 - Ramp2 settings active 4 Local Control (0 - network; 1 - local) 5 Faulted - S811+ fault present 6 Warning - S811+ warning present (self clearing) 7 In bypass - S811+ Bypass closed 8 = Output 1 9 = Output 2 10 = Input 1 11 = Input 2 12 = Input 3 13 = Input 4 14 = Alarm No Trip Enabled 15 = S811+ Internal Comm Loss Scaled RMS 3phase line current - This is the actual current flowing to the motor in 1.0A. Scaled RMS average of the 3phase line current - This is the actual current flowing to the motor in 1.0A. Average of the 3 phase current as a percentage of the Motor Nameplate fla setting Thermal Pile Used Percentage - Trip at 100% 3 Phase RMS Mains voltage reading (in volts) Average 3 phase real power (in kw) Power Factor Power factor reading (in ) Field Inputs A bitfield representing the input points. 0 = Input 1 1 = Input 2 2 = Input 3 3 = Input Power Pole Temperature Line Frequency Motor Control Faults S811+ power pole temperature in 0.1 degrees C Frequency reading of incoming mains voltage (in 0.01Hz) S811+ Motor Control Fault Bit Field Bit Fault 0 Phaseloss 1 Phase Imbalance 2 Thermal Pile 3 Overcurrent 4 Breaker Fault 5 GND Fault 6 Motor Stall 7 Motor Jam 8 OverTemp 9 UnderLoad 10 Reserved 11 Estop 12 Reserved 13 Reserved 14 Reserved 15 Other Table 78. Assembly Instance 140 (0x8C): Full S811 Monitoring, Current in Amps (Cont.) Motor Control Warnings Active Fault List Total Motor Starts Total Assembly (bytes): 48 S811+ Motor Control Warning Bit Field Bit Warning 0 Phaseloss 1 Phase Imbalance 2 Thermal Pile 3 Overcurrent 4 Breaker Fault 5 GND Fault 6 Motor Stall 7 Motor Jam 8 OverTemp 9 UnderLoad 10 Reserved 11 Reserved 12 Reserved 13 Reserved 14 Reserved 15 Other Will display up to 3 faults/warnings that are actively present Number of motor starts 40

41 User Manual MN E Table 79. Assembly Instance 141 (0x8D): Full S811 Monitoring, Current in 0.1A Table 79. Assembly Instance 141 (0x8D): Full S811 Monitoring, Current in 0.1A (Cont.) Includes the most common measurement values. Current values scaled in 0.1A (bytes): 2 (bytes) Name Device Ph RMS Line Current (deciamps) Ph Ave Line Current (deciamps) Average current as % FLA % Thermal Pile used Ph RMS Mains Voltage Ave 3Ph Real Power (kw) Description Device Bit Array 0 Running - RUN command active 1 Jogging - Jog command active 2 Permissive - Start allowed (must be 1 to start) 3 Ramp2 - Ramp2 settings active 4 Local Control (0 - network; 1 - local) 5 Faulted - S811+ fault present 6 Warning - S811+ warning present (self clearing) 7 In bypass - S811+ Bypass closed 8 = Output 1 9 = Output 2 10 = Input 1 11 = Input 2 12 = Input 3 13 = Input 4 14 = Alarm No Trip Enabled 15 = S811+ Internal Comm Loss Scaled RMS 3phase line current - This is the actual current flowing to the motor in 0.1A. Scaled RMS average of the 3phase line current - This is the actual current flowing to the motor in 0.1A. Average of the 3 phase current as a percentage of the Motor Nameplate fla setting Thermal Pile Used Percentage - Trip at 100% 3 Phase RMS Mains voltage reading (in volts) Average 3 phase real power (in kw) Power Factor Power factor reading (in ) Field Inputs A bitfield representing the input points. 0 = Input 1 1 = Input 2 2 = Input 3 3 = Input Power Pole Temperature Line Frequency Motor Control Faults S811+ power pole temperature in 0.1 degrees C Frequency reading of incoming mains voltage (in 0.01Hz) S811+ Motor Control Fault Bit Field Bit Fault 0 Phaseloss 1 Phase Imbalance 2 Thermal Pile 3 Overcurrent 4 Breaker Fault 5 GND Fault 6 Motor Stall 7 Motor Jam 8 OverTemp 9 UnderLoad 10 Reserved 11 Estop 12 Reserved 13 Reserved 14 Reserved 15 Other (bytes) Name Motor Control Warnings Active Fault List Total Motor Starts Total Assembly (bytes): 48 Description S811+ Motor Control Warning Bit Field Bit Warning 0 Phaseloss 1 Phase Imbalance 2 Thermal Pile 3 Overcurrent 4 Breaker Fault 5 GND Fault 6 Motor Stall 7 Motor Jam 8 OverTemp 9 UnderLoad 10 Reserved 11 Reserved 12 Reserved 13 Reserved 14 Reserved 15 Other Will display up to 3 faults/warnings that are actively present Number of motor starts 41

42 Table 80. Assembly Instance 150 (0x96): S811 Includes S811 status,motor faults, motor warnings, & Active fault codes (bytes): 2 (bytes) Name Device Motor Control Faults Motor Control Warnings Active Fault List Fault Queue Total Assembly (bytes): 32 Description Device Bit Array 0 Running - RUN command active 1 Jogging - Jog command active 2 Permissive - Start allowed (must be 1 to start) 3 Ramp2 - Ramp2 settings active 4 Local Control (0 - network; 1 - local) 5 Faulted - S811+ fault present 6 Warning - S811+ warning present (self clearing) 7 In bypass - S811+ Bypass closed 8 = Output 1 9 = Output 2 10 = Input 1 11 = Input 2 12 = Input 3 13 = Input 4 14 = Alarm No Trip Enabled 15 = S811+ Internal Comm Loss S811+ Motor Control Fault Bit Field Bit Fault 0 Phaseloss 1 Phase Imbalance 2 Thermal Pile 3 Overcurrent 4 Breaker Fault 5 GND Fault 6 Motor Stall 7 Motor Jam 8 OverTemp 9 UnderLoad 10 Reserved 11 Estop 12 Reserved 13 Reserved 14 Reserved 15 Other S811+ Motor Control Warning Bit Field Bit Warning 0 Phaseloss 1 Phase Imbalance 2 Thermal Pile 3 Overcurrent 4 Breaker Fault 5 GND Fault 6 Motor Stall 7 Motor Jam 8 OverTemp 9 UnderLoad 10 Reserved 11 Reserved 12 Reserved 13 Reserved 14 Reserved 15 Other Will display up to 3 faults/warnings that are actively present S811+ fault Queue Queue will hold up to the last 10 faults - Fault codes are not repeated in queue Table 81. Class 8 (0x08): Discrete Input Object Instance Count: 4 Instance List: 1, 2, 3, 4 3 (0x03) V Get BOOL Input State 101 (0x65) NV Set/Get UDINT On/Off debounce Input point value. Val = State 0 = Off 1 = On Table 82. Class 9 (0x09): Discrete Output Object Instance Count: 2 Instance List: 1, 2 3 (0x03) V Set/Get BOOL Output State 5 (0x05) NV Set/Get BOOL Com Fault Action 6 (0x06) NV Set/Get BOOL Com Fault Value 7 (0x07) NV Set/Get BOOL Idle Action 8 (0x08) NV Set/Get BOOL Idle Value The debounce time applied to the input. The debounce applies to both rising Output point value. 0 = Off 1 = On When a communication fault occurs the output can execute two types of behavior. Value = Description 0 = Apply Fault Value 1 = No Change Communication fault value to be applied. Value = Description 0 = Turn Relay Off 1 = Turn Relay On When a communication idle state occurs the relay can execute two types of behavior. Value = Description 0 = Apply Idle Value 1 = No Change Communication idle value to be applied. Value = Description 0 = Turn Relay Off 1 = Turn Relay On 42

43 User Manual MN E Table 83. Class 10 (0x0A): Analog Input Object Instance Count: 1 Instance List: 1 3 (0x03) V Get USINT Analog Input Value (% of range) 8 (0x08) V Get USINT Analog Value Type 100 (0x64) 101 (0x65) 102 (0x66) 103 (0x67) 104 (0x68) 105 (0x69) V Get USINT Analog Input NV Set/Get USINT Analog Input Range NV Set/Get USINT Analog Input Trip Enable NV Set/Get USINT Analog Input Trip Low Threshold NV Set/Get USINT Analog Input Trip High Threshold NV Set/Get UINT Analog Input Trip Duration Analog input reading (in percent of set range) Analog Input Value Type 0 - INT 1 - REAL 2 - USINT 3 - SINT 4 - DINT 5 - LINT 6 - UINT 7 - UDINT 8 - ULINT 9 - LREAL (Vendor specific) USINT - Value in % of selected range (only format supported) of the S811+ analog input 0x00 - Not Active 0x01 - Input under range 0x02 - Input over range 0x03 - Input in overdrive 0x04 - Input is in range Selected range of analog input 0x mA range 0x mA range Analog input trip enable 0x00 - disable 0x01 - fault enable 0x02 - warning enable Low analog input trip threshold (in percent of selected analog range) High analog input trip threshold (in percent of selected analog range) Amount of time a low or high analog input condition must exist before a trip; (in 0.1secs) Table 84. Class 41 (0x29): Control Supervisor Object Instance Count: 1 Instance List: 1 3 (0x03) V Set/Get BOOL Run1 Run the softstarter. 4 (0x04) V Set/Get BOOL Run2 Run the softstarter(ramp2) 7 (0x07) V Get BOOL Running1 Indicates if the motor is running standard ramp 8 (0x08) V Get BOOL Running2 Indicates if the motor is running ramp2 9 (0x09) V Get BOOL Ready Softstarter is not faulted 10 (0x0A) V Get BOOL Faulted Fault present 11 (0x0B) V Get BOOL Warning Warning present 12 (0x0C) V Set/Get BOOL Fault Reset Reset Fault 15 (0x0F) V Get BOOL Control From Net 22 (0x16) V Get UDINT Total motor starts 100 (0x64) NV Set/Get USINT S811 Input1 cfg Entry (0x65) NV Set/Get USINT S811 Input2 cfg Entry (0x66) NV Set/Get USINT S811 Input3 cfg Entry (0x67) NV Set/Get USINT S811 Input4 cfg Entry (0x68) NV Set/Get USINT C441 Input1 cfg Entry (0x69) NV Set/Get USINT C441 Input2 cfg Entry (0x6A) NV Set/Get USINT C441 Input3 cfg Entry (0x6B) NV Set/Get USINT C441 Input4 cfg Entry (0x6C) NV Set/Get USINT S811 FormA Entry 1 relay cfg 109 (0x6D) NV Set/Get USINT S811 FormC Entry 2 relay cfg 110 (0x6E) NV Set/Get USINT C441 Output1 Entry 3 relay cfg 111 (0x6F) NV Set/Get USINT C441 Output2 Entry 4 relay cfg 112 (0x70) NV Set/Get UINT Custom fault Entry 1 code (0x71) NV Set/Get UINT Custom fault Entry 2 code (0x72) NV Set/Get UINT Custom fault code 3 Entry (0x73) NV Set/Get BOOL Terminal Block control enable 116 (0x74) V Get BOOL Run1 logic sense Control is coming from the network. Total Motor Starts Enables Local control at the terminal block of Run1 input logic sense (edge/level) 117 (0x75) NV Set/Get BOOL wiring config 0 - standard wiring; 1 - Inside the delta wiring 118 (0x76) NV Set/Get BOOL Pending start warning 119 (0x77) NV Set/Get UINT Power up start delay Enables warning when start delay timers are used. Warning is issued while start command is pending Time delay after power up before a start command can be issued 120 (0x78) NV Set/Get UINT Start delay Time delay after a start command is issued before the S811+ will attempt start 121 (0x79) NV Set/Get UINT Run cmd start delay 122 (0x7A) V Get UINT Auto Reset Count User settable time delay between successive start profiles. Delay becomes active when start profile(ramp vs ramp2) changes between starts Number of auto reset attempts 43

44 Table 84. Class 41 (0x29): Control Supervisor Object (Cont.) 123 (0x7B) NV Set/Get USINT Fault Reset Mode 124 (0x7C) NV Set/Get UINT Auto Reset Delay Time 125 (0x7D) NV Set/Get UINT Auto Reset Attempt Limit 126 (0x7E) NV Set/Get USINT Motor Comm Loss Action 127 (0x7F) NV Set/Get UINT Transient Motor Control Timeout 128 (0x80) NV Set/Get UINT Motor Control Command Timeout 129 (0x81) V Set/Get USINT Modbus Device Reset 130 (0x82) NV Set/Get BOOL Alarm - No Trip Enabled 131 (0x83) NV Set/Get UINT EtherNet/IP Comm Timeout Fault reset mode 0x00 - manual reset 0x01 - auto reset 0x02 - power on reset (reset faults on power cycle) Delay time after fault before attempting to auto reset Max number of auto reset attempts; once reached, S811 requires manual reset to clear fault Motor comloss action 0x00 - auto stop 0x01 - auto run1 0x02 - unavailable 0x03 - hold last state 0x04 - unavailable 0x05 - unavailable 0x06 - unavailable 0x07 - all stop fault (will trip S811+ and issue all stop fault) Motor control timeout for transient UI devices Motor control timeout - communication idle time which will cause a Motor Control Device Missing fault performs reset services on S811+ over modbus 0x00 - no reset 0x01 - soft reset (power cycle reset) 0x02 - factory reset (reset device back to defaults) 0x03 - app parameter reset 0x04 - reserved 0x05 - reserved 0x06 - flush fault queue/list Alarm no trip enable allows the S811+ to continue to run through any motor faults. Fault will be issued but will not stop the starter. Faults meant to protect the softstarter will continue to trip the starter Range: 0 60,000 ms Default: 3000 ms Table 85. Class 44 (0x2C): Overload Object Instance Count: 1 Instance List: 1 4 (0x04) 7 (0x07) 100 (0x64) 101 (0x65) 102 (0x66) 103 (0x67) 104 (0x68) 105 (0x69) 106 (0x6A) 107 (0x6B) 108 (0x6C) 109 (0x6D) 110 (0x6E) 111 (0x6F) 112 (0x70) 113 (0x71) 114 (0x72) 115 (0x73) 116 (0x74) 117 (0x75) 118 (0x76) NV Set/Get USINT Overload Trip Class V Get USINT % Thermal Pile used V Set/Get UINT Motor Nameplate FLA in 0.1A V Get UINT 3Ph Ave Line Current (deciamps) V Get UINT 3Ph RMS Line Current (deciamps) V Get UINT 3Ph RMS Line Current (deciamps) V Get UINT 3Ph RMS Line Current (deciamps) V Get UINT Average current as % FLA V Get UINT 3Ph Ave Line Current (amps) V Get UINT 3Ph RMS Line Current (amps) V Get UINT 3Ph RMS Line Current (amps) V Get UINT 3Ph RMS Line Current (amps) V Get UINT Ave 3Ph Real Power (kw) Overload Trip Class ( 5-30; 20 default) Thermal Pile Used Percentage - Trip at 100% Full load amperage rating of motor scaled in 0.1A (deci Amps) Scaled RMS average of the 3phase line current - This is the actual current flowing to the motor in 0.1A. Scaled RMS 3phase line current - This is the actual current flowing to the motor in 0.1A (L1). Scaled RMS 3phase line current - This is the actual current flowing to the motor in 0.1A (L2). Scaled RMS 3phase line current - This is the actual current flowing to the motor in 0.1A (L3). Average of the 3 phase current as a percentage of the Motor Nameplate fla setting Scaled RMS average of the 3phase line current - This is the actual current flowing to the motor in 1.0A. Scaled RMS 3phase line current - This is the actual current flowing to the motor in 1.0A (L1). Scaled RMS 3phase line current - This is the actual current flowing to the motor in 1.0A (L2). Scaled RMS 3phase line current - This is the actual current flowing to the motor in 1.0A (L3). Average 3phase real power (in kw) V Get INT Power Factor Power factor reading (in ) NV Set/Get USINT Overload Trip Enable V Set/Get BOOL Enable Overload During Start NV Set/Get USINT Undercurrent Trip Enable NV Set/Get USINT Undercurrent Trip Level (% FLA) NV Set/Get UINT Undercurrent Trip Duration NV Set/Get USINT Motor Jam Trip Enable NV Set/Get USINT Motor Stall Trip Enable Motor overload trip enable 0x00 - disable 0x01 - fault enable 0x02 - warning enable Enable the overload during start ramp 0x00 - overload is disabled during start ramp 0x01 - overload is enabled during start ramp Low load current trip enable 0x00 - disable 0x01 - fault enable 0x02 - warning enable Low load current trip threshold in percent of the motor nameplate fla setting Amount of time a low current condition must exist before a trip; (in 0.1secs) Motor jam trip enable 0x00 - disable 0x01 - fault enable 0x02 - warning enable Motor stall trip enable 0x00 - disable 0x01 - fault enable 0x02 - warning enable 44

45 User Manual MN E Table 85. Class 44 (0x2C): Overload Object (Cont.) 119 (0x77) 120 (0x78) 121 (0x79) 122 (0x7A) 123 (0x7B) 124 (0x7C) 125 (0x7D) 126 (0x7E) 127 (0x7F) 128 (0x80) NV Set/Get USINT Phase Loss Trip Enable NV Set/Get USINT Motor Phase Loss Trip Level NV Set/Get UINT Motor Phase Loss Duration NV Set/Get USINT Phase Imbalance Trip Enable NV Set/Get USINT Motor Phase Imbalance Trip Level NV Set/Get UINT Motor Phase Imbalance Trip Duration NV Set/Get USINT Ave Power Trip Enable NV Set/Get UINT Ave Power Low Trip Threshold NV Set/Get UINT Ave Power High Trip Threshold NV Set/Get UINT Ave Power Trip Duration Motor phase loss trip enable 0x00 - disable 0x01 - fault enable 0x02 - warning enable Current phase loss trip threshold Amount of time a phase loss condition must exist before a trip; (in 0.1secs) Current phase imbalance trip enable 0x00 - disable 0x01 - fault enable 0x02 - warning enable Current imbalance trip threshold Amount of time a current imbalance condition must exist before a trip; (in 0.1secs) Average power trip enable 0x00 - disable 0x01 - fault enable 0x02 - warning enable Low power trip threshold (in percent of rated W) rated W = sqrt(3)*0.8pf*motor fla*rated motor voltage High power trip threshold (in percent of rated W) rated W = sqrt(3)*0.8pf*motor fla*rated motor voltage Amount of time a low or high power condition must exist before a trip; (in 0.1secs) Table 86. Class 45 (0x2D): Softstart Object Instance Count: 1 Instance List: 1 3 (0x03) 4 (0x04) 7 (0x07) 8 (0x08) 11 (0x0B) 16 (0x10) 100 (0x64) 101 (0x0D) 102 (0x0E) 103 (0x65) 104 (0x66) 105 (0x67) 106 (0x68) 107 (0x69) 108 (0x6A) 109 (0x6B) 110 (0x6C) 111 (0x6D) 112 (0x6E) 113 (0x6F) V Get BOOL At Ref Indicates whether the softstart is in bypass or not. NV Set/Get USINT Soft Start Method NV Set/Get UINT Start Ramp Time NV Set/Get USINT Initial Starting Torque NV Set/Get BOOL Expected Incoming Phase Sequence NV Set/Get UINT Stop Ramp Time NV Set/Get UINT Pump Stop Time NV Set/Get USINT Kickstart Duration NV Set/Get USINT Kickstart Starting Torque NV Set/Get USINT Ramp2 Soft Start Method NV Set/Get UINT Ramp2 Start Ramp Time NV Set/Get USINT Ramp2 Initial Starting Torque NV Set/Get BOOL Ramp2 Expected Phase Sequence NV Set/Get USINT Ramp2 Kickstart Duration NV Set/Get USINT Ramp2 Kickstart Starting Torque NV Set/Get UINT Ramp2 Stop Ramp Time NV Set/Get UINT Ramp2 Pump Stop Time V Get INT Power Pole Temperature V Get INT Power Pole Temperature V Get INT Power Pole Temperature Selects the ramp start method. 1=Voltage Ramp (no current limit) 2=Current Limit (no voltage ramp) 100=Pump start Motor start ramp time. Starting torque setting for ramp start Expected phase sequence of incoming mains 0 - ABC 1 - ACB Motor stop ramp time. Parameter is not active when start method is set to pump The amount of time to use for the pump stop ramp behavior. Parameter is active when pumpstart is selected for motor start method The amount of time to apply a kick start (in 0.1secs) Initial torque value for the kick start Selects the ramp2 start method. 1=Voltage Ramp (no current limit) 2=Current Limit (no voltage ramp) 100=Pump start Motor start ramp time for ramp2. Starting torque setting for ramp2 start Expected phase sequence of incoming mains for ramp2 start 1 - ACB The amount of time to apply a kick start (in 0.1secs) for ramp2 start Initial torque value for the kick start for ramp2 Motor stop ramp time for ramp2. Parameter is not active when ramp2 start method is set to pump The amount of time to use for the pump stop ramp2 behavior. Parameter is active when pumpstart is selected for ramp2 motor start method S811+ power pole temperature in 0.1 degrees C S811+ power pole temperature in 0.1 degrees C S811+ power pole temperature in 0.1 degrees C 45

46 Table 86. Class 45 (0x2D): Softstart Object (Cont.) 114 (0x70) 115 (0x71) 116 (0x72) NV Set/Get USINT Temperature Sensor Trip Enable NV Set/Get USINT SCR Not Firing Trip Enable NV Set/Get USINT SCR Shorted Trip Enable Temperature sensor trip enable 0x00 - disable 0x01 - fault enable 0x02 - warning enable SCR not firing trip enable 0x00 - disable 0x01 - fault enable 0x02 - warning enable Shorted SCR trip enable 0x00 - disable 0x01 - fault enable 0x02 - warning enable Table 87. Class 140 (0x8C): Device Object Instance Count: 1 Instance List: 1 Attrib NV 1 (0x01) 2 (0x02) 3 (0x03) 4 (0x04) 5 (0x05) 6 (0x06) 7 (0x07) Access V Get USINT Motor status V Get USINT S811 input status V Get USINT S811 output status V Get UINT Active Fault #1 V Get UINT Active Fault #2 V Get UINT Active Fault #3 V Get UINT Bit field (faults) Motor Control for S811+ Bit Description 0 Running1 - RUN1 command active 1 Running2 - Jog command active 2 Permissive - Start allowed (must be 1 to start) 3 Ramp2 - Ramp2 settings active 4 Local Control (0 - network; 1 - local) 5 Faulted - S811+ fault present 6 Warning - S811+ warning present (self clearing) 7 In bypass - S811+ Bypass closed The Discrete data Input register will show the active/inactive status of S811+ hardwired and networked inputs. Bits 3..0 indicate the status of the S811+ terminal block inputs and bits 7..4 indicate the status of the network inputs located in the Network Input (C441 communication adapter inputs#1-4 when connected) Bit Description 0 S811+ discrete input#1 status 1 S811+ discrete input#2 status 2 S811+ discrete input#3 status 3 S811+ discrete input#4 status 4 Network input#1 status ( C441 Com adapter input#1) 5 Network input#2 status ( C441 Com adapter input#2) 6 Network input#3 status ( C441 Com adapter input#3) 7 Network input#4 status ( C441 Com adapter input#4) The Discrete data Output register bits 1..0 indicate the status of the S811+ relays and bits 3..2 indicate the status of the network outputs being generated by the S811+ configurable output logic(c441 communication adapter outputs#1-2 when connected) Bit Description 0 S811+ discrete forma relay status 1 S811+ discrete formc relay status 2 Network output#1 status ( C441 Com adapter output#1) 3 Network output#2 status ( C441 Com adapter output#2) Will display up to 3 faults/warnings that are actively present Will display up to 3 faults/warnings that are actively present Will display up to 3 faults/warnings that are actively present S811+ Motor Control Fault Bit Field Bit Fault 0 Phaseloss 1 Phase Imbalance 2 Thermal Pile 3 Overcurrent 4 Breaker Fault 5 GND Fault 6 Motor Stall 7 Motor Jam 8 OverTemp 9 UnderLoad 10 Reserved 11 Estop 12 Reserved 13 Reserved 14 Reserved 15 Other 46

47 User Manual MN E Table 87. Class 140 (0x8C): Device Object (Cont.) Attrib NV 8 (0x08) 9 (0x09) 10 (0x0A) 11 (0x0B) 12 (0x0C) 13 (0x0D) 14 (0x0E) 15 (0x0F) 16 (0x10) 17 (0x11) 18 (0x12) 19 (0x13) Access V Get UINT Bit field (warnings) V Get UINT Most recent fault V Get UINT next most recent fault V Get UINT next most recent fault V Get UINT next most recent fault V Get UINT next most recent fault V Get UINT next most recent fault V Get UINT next most recent fault V Get UINT next most recent fault V Get UINT next most recent fault V Get UINT Oldest fault V Set/Get BOOL Clear Fault Queue S811+ Motor Control Warning Bit Field Bit Warning 0 Phaseloss 1 Phase Imbalance 2 Thermal Pile 3 Overcurrent 4 Breaker Fault 5 GND Fault 6 Motor Stall 7 Motor Jam 8 OverTemp 9 UnderLoad 10 Reserved 11 Reserved 12 Reserved 13 Reserved 14 Reserved 15 Other S811+ fault Queue Queue will hold up to the last 10 faults - Fault codes are not repeated in queue S811+ fault Queue Queue will hold up to the last 10 faults - Fault codes are not repeated in queue S811+ fault Queue Queue will hold up to the last 10 faults - Fault codes are not repeated in queue S811+ fault Queue Queue will hold up to the last 10 faults - Fault codes are not repeated in queue S811+ fault Queue Queue will hold up to the last 10 faults - Fault codes are not repeated in queue S811+ fault Queue Queue will hold up to the last 10 faults - Fault codes are not repeated in queue S811+ fault Queue Queue will hold up to the last 10 faults - Fault codes are not repeated in queue S811+ fault Queue Queue will hold up to the last 10 faults - Fault codes are not repeated in queue S811+ fault Queue Queue will hold up to the last 10 faults - Fault codes are not repeated in queue S811+ fault Queue Queue will hold up to the last 10 faults - Fault codes are not repeated in queue Set this parameter to TRUE to clear the fault queue. Table 88. Class 147 (0x93): Voltage Monitor Object Instance Count: 1 Instance List: 1 1 (0x01) 2 (0x02) 3 (0x03) 4 (0x04) 5 (0x05) 6 (0x06) 7 (0x07) 8 (0x08) 9 (0x09) 10 (0x0A) 11 (0x0B) 12 (0x0C) 13 (0x0D) 14 (0x0E) 15 (0x0F) 16 (0x10) 17 (0x11) 18 (0x12) 19 (0x13) 20 (0x14) V Get UINT 3Ph RMS Mains Voltage V Get UINT 3Ph RMS Mains Voltage V Get UINT 3Ph RMS Mains Voltage V Get UINT Line Frequency V Get USINT Incoming Phase Sequence V Get UINT DC Control Voltage NV Set/Get UINT Motor Rated Volts NV Set/Get USINT Under Voltage Trip Enable NV Set/Get USINT Under Voltage Trip Threshold NV Set/Get UINT Under Voltage Trip Duration NV Set/Get USINT Over Voltage Trip Enable NV Set/Get USINT Over Voltage Trip Threshold NV Set/Get UINT Over Voltage Trip Duration NV Set/Get USINT Voltage Imbalance Trip Level NV Set/Get UINT Voltage Imbalance Trip Duration NV Set/Get UINT Incoming Line Frequency Rating NV Set/Get USINT Line Frequency Trip NV Set/Get USINT Frequency Deviation Trip Threshold NV Set/Get UINT Frequency Trip Duration NV Set/Get USINT Phase Reversal Trip Enable 3 Phase RMS Mains voltage reading (in volts) (L1-L2) 3 Phase RMS Mains voltage reading (in volts) (L2-L3) 3 Phase RMS Mains voltage reading (in volts) (L3-L1) Frequency reading of incoming mains voltage (in 0.01Hz) Phase sequence of incoming mains voltage 0 - ABC 1 - ACB DC Control Voltage reading in 0.001V Rated voltage of the motor Under voltage trip enable 0x00 - disable 0x01 - fault enable 0x02 - warning enable Under voltage trip threshold (in percent of rated motor voltage) Amount of time an under voltage condition must exist before a trip; (in 0.1secs) Over voltage trip enable 0x00 - disable 0x01 - fault enable 0x02 - warning enable Over voltage trip threshold (in percent of rated motor voltage) Amount of time an over voltage condition must exist before a trip; (in 0.1secs) Voltage imbalance trip threshold Amount of time a voltage imbalance condition must exist before a trip; (in 0.1secs) Expected frequency of incoming mains voltage Line frequency deviation trip enable 0x00 - disable 0x01 - fault enable 0x02 - warning enable Line frequency deviation trip threshold (in percent of rated line frequency) Amount of time a frequency deviation condition must exist before a trip; (in 0.1secs) Phase reversal trip enable 0x00 - disable 0x01 - fault enable 0x02 - warning enable 47

48 6.6 EtherNet/IP Object Model Stand Alone I/O When the Ethernet module is not connected to a host device such as the C440, the presented object model is compliant with the ODVA Discrete I/O device profile (type: 0x7). Full Profile for Stand Alone Operation The table below shows the supported classes of the Ethernet Module when connected to an S611 soft starter. Class 0x01 (hex) 0x02 0x04 0x06 0x08 0x09 0xF5 0xF6 Object # of Instances Description Identity 1 Provides module identity object: See details below. Message Router Assembly Object Connection Manager Discrete Input Point Discrete Output Point TCP/IP Interface Ethernet Link Object Details Class 1 (0x01): Identity Object Instance Count: 1 Instance List: 1 1 Internal object implemented per ODVA specification 6 Binds attributes from multiple objects for access with a single Implicit (I/O) connection. See details below. 1 Internal object supporting connection management. Implemented per ODVA specification 4 information for the discrete Inputs. See details in previous section. 2 and control for the discrete Outputs. See details In previous section. 1 Information about the TCP/IP Interface. Implemented per ODVA specification 2 Ethernet link object for each of the 2 Ethernet ports on the device. Implemented per ODVA specification. Table 89. Stand Alone Identity Object Instant Attributes 1 V Get UINT CIP Vendor ID 2 V Get UINT CIP Device Type 3 V Get UINT Product Code 4 V Get UINT Firmware Rev ODVA Assigned Vendor Identification Number. CIP Defined General Product Type. Vendor Product Code Com Adapter Firmware Rev. Table 89. Stand Alone Identity Object Instant Attributes (Cont.) 5 V Get WORD Device 6 NV Set/Get UDINT Serial Number 7 V Get SHORT_ STRING Product Name 8 V Get USINT Device State 176 NV Set/Get SHORT_ STRING Assigned Name Class 4 (0x04): Assembly Object Instance Count: 3 Instance List: 3, 32, 107 This attribute represents the current status of the entire devices. Its value changes as the state of the device changes. Bit = Definition 0 = Owned. True indicates the device has an owner. 2 = Configured. True indicates the application of the device has been configured to do something different than out of box default. Does not include communication configuration. 4-7 = Extended Device. 8 = Minor Recoverable Fault. True indicates the device detected a problem with itself, which is thought to be recoverable. 9 = Minor Unrecoverable Fault. True indicates the device detected a problem with itself, which is thought to be unrecoverable. 10 = Major Recoverable Fault. True indicates the device detected a problem with itself causing a Major Recoverable Fault state. 11 = Major Unrecoverable Fault. True indicates the device detected a problem with itself causing a Major Unrecoverable Fault state. 32 bit Com Adapter Device Serial Number. ASCII Product Name. Present State of the Device. Value = Definition 0 = Nonexistent 1 = Device Self Testing 2 = Standby 3 = Operational 4 = Major Recoverable Fault 5 = Major Unrecoverable Fault 255 = Default for Get Attributes All. User Defined ASCII Name. Table 90. Stand Alone Assembly Object Instance Attributes 3 V Set/Get Array of BYTE Assembly. See sections below for instance definition. Table 91. Stand Alone Assembly Instance List: Type Instance Usage Name Input 3 Poll Field Inputs Output 32 Poll Field Relay Outputs Input 107 Poll 4In/2Out Assembly 48

49 User Manual MN E Assembly Instance Definitions: Table 92. Stand Alone Assembly Instance 3 (0x03): Field Inputs Field Inputs Total Assembly (bytes): 1 A Bitfield Representing the Input Points. 0 = Input 1 1 = Input 2 2 = Input 3 3 = Input 4 Table 93. Stand Alone Assembly Instance 32 (0x20): Field Relay Outputs Field Relay Outputs A Bitfield Representing the Output Points. 0 = Output 1 1 = Output 2 Total Assembly (bytes): 1 Table 94. Stand Alone Assembly Instance 107 (0x6B): 4In/2Out Assembly In/2Out Assembly Total Assembly (bytes): 1 Class 8 (0x08): Discrete Input Object Instance Count: 4 Instance List: 1, 2, 3, 4 4 input and 2 output single value. 2 = Relay 1 3 = Relay 2 4 = Input 1 5 = Input 2 6 = Input 3 7 = Input 4 Table 95. Stand Alone Discrete Input Object Instance Attributes 3 Get BOOL Input 0 = Off 1 = On 101 NV Set/Get UDINT Field Inputs Debounce The debounce applies to both rising and falling edge. (milliseconds) Class 9 (0x09): Discrete Output Object Instance Count: 2 Instance List: 1, 2 Table 96. Stand Alone Discrete Output Object Instance Attributes 3 V Set/Get BOOL Field Relay Outputs 5 NV Set/Get BOOL Field Relay Fault Action 6 NV Set/Get BOOL Field Relay Fault State 7 NV Set/Get BOOL Field Relay Idle Action 8 NV Set/Get BOOL Field Relay Idle State Class 153 (0x99): Test Only Instance Count: 1 Instance List: 1 Table 97. Test Only Output point value Val = Description 0 = Off 1 = On 147 NV Set/Get UINT EtherNet/ IP Comm Timeout Class 245 (0xF5): TCP/IP Object Instance Count: 1 Instance List: 1 Table 98. TCP/IP Object When a communication fault occurs the output can execute two types of behavior. Value = Description 0 = Apply Fault Value 1 = No Change Communication fault value to be applied. Value = Description 0 = Turn Relay Off 1 = Turn Relay On When a communication idle state occurs the relays can execute two types of behavior. Value = Description 0 = Apply Idle Value 1 = No Change Communication idle value to be applied. Value = Description 0 = Turn Relay Off 1 = Turn Relay On Range: 0 60,000 ms Default: 3000 ms 13 NV Set/Get UINT Encapsulation Inactivity Timeout Number of seconds of inactivity before TCP connection is closed 49

50 7 Modbus TCP and Modbus Serial Protocol Support All versions of the Ethernet module (C441R, C441T, C441U and C441V) support the Ethernet based Modbus TCP protocol as a server device. The C441R and C441T modules provide a serial port that supports a serial Modbus RTU slave protocol as an additional monitoring port. The C441U and C441V stand alone modules also have this serial port, but it is required to be used as a host connection if used with the C440, S611, or S811+. If the C441R or C441T is used as a stand alone I/O block, the serial port is also available as an additional monitoring port. The supported function codes and register maps are identical for both the Ethernet Modbus TCP and serial Modbus RTU protocols. 7.1 Supported Function Codes Commands Supported 0x01 Read Coils 0x02 Read Discrete Inputs 0x03 Read Holding s 0x04 Read Input 0x05 Write Single Coil 0x06 Write Single 0x0F Write Multiple Coils (15) 0x10 Write Multiple s (16) 0x17 Read/Write Multiple s (23) 0x2B/0x0E Read Device Identification Get Device Identity (43/14) (see below for detail) Function Code Details 0x2B / 0x0E Read Device Identification / Get Device Identification Device ID Codes 1,2 and 4 are implemented. Device ID code 3 (extended info) is not implemented Object IDs 0 VendorName 1 ProductCode 2 MajorMinorRefision 3 VendorURL 4 ProductName 5 ModelName 6 UserApplicationName 7.2 Definitions for the C441 Motor Insight Table 99. s Available with C441 Motor Insight Start Coil Read/ Write Name Description (Units) 1 1 R Field Inputs A Bitfield Representing the Input Points. 0 = Input 1 1 = Input 2 2 = Input 3 3 = Input 4-2 R Control Voltage Adapter Source Voltage. ( mv ) - 3 R Ambient Temperature - 4 R/W Max Board Temperature 65 5 R Dip Switch Value - 6 R Configuration CRC - 7 R/W Serial Number Device ambient temperature as measured from the PCB. ( ºC ) The maximum board temperature experienced since manufacturing. ( ºC ) A bit field representing the present state of the dip switches. A CRC value calculated over the nonvolatile data present. 32 bit Com Adapter Device Serial Number. - 9 R Firmware Rev Com Adapter Firmware Rev R/W Hardware Rev Com Adapter Hardware Rev R/W Field Relay Outputs R/W Field Inputs Debounce R/W Modbus TCP Com Timeout R/W Field Relay Fault Action R/W Field Relay Fault State R/W Field Relay Idle Action A Bitfield Representing the Output Points. 0 = Output 1 1 = Output 2 Array of Debounce Values. A debounce value exists for each input. The debounce applies to both rising and falling edge. ( milliseconds ) Communication Timeout for Modbus TCP. 0 = Disable. ( milliseconds ) When a communication fault occurs the relays can execute two types of behavior. The behavior is selected on a per bit basis. 0 = Relay 1 1 = Relay 2 Bit Value = Description 0 = Apply Fault Value 1 = No Change Communication fault value to be applied. A bitfield where each bit defines an output point. Bit Value = Description 0 = Turn Relay Off 1 = Turn Relay On When a communication idle state occurs the relays can execute two types of behavior. The behavior is selected on a per bit basis. 0 = Relay 1 1 = Relay R/W Field Relay Idle State Bit Value = Description 0 = Apply Idle Value 1 = No Change Communication idle value to be applied. A bitfield where each bit defines an output point. Bit Value = Description 0 = Turn Relay Off 1 = Turn Relay On 50

51 User Manual MN E Table 99. s Available with C441 Motor Insight (Cont.) Start Coil Read/ Write Name Description (Units) R Method of IP Allocation R Present Ethernet IP Address R Present Ethernet Subnet Mask R Present Ethernet Default Gateway R/W Stored Ethernet IP Address R/W Stored Ethernet Subnet Mask R/W Stored Ethernet Default Gateway R/W Ethernet MAC Address R/W Modbus Com Timeout R/W Modbus TX mode R/W Modbus Baud Rate R/W Modbus Address R/W Modbus Parity and Stop Bits R Intercom R/W Motor Ctrl Idle Loss Act Disable R/W Motor Ctrl Com Idle Action Val R/W Motor Ctrl Com Loss Act Disable The Method Used to Allocate an IP Address: 0 - DHCP 1 - Upper three octets from NV and lower octet selected by the dip switch setting. 2 - Full address taken from NV Memory. 3 - Restore (hardcoded ). The active IP address being used on the network. The active subnet mask IP address being used on the network. The active default gateway IP address being used on the network. The IP address used in the NV address select configuration. The IP subnet mask used in the NV address select configuration. The IP default gateway used in the NV address select configuration. - Communication Timeout for Modbus. 0 = Disable. ( milliseconds ) Selects the Modbus Mode. 0 - RTU 1 - ASCII Selects the Modbus Baud Rate kb 1-9.6kb kb kb Modbus Address Loaded at Startup. Selects the Modbus UART Parity and Stop Bits. 0 - Even/One Stop Bit 1 - Odd/One Stop Bit 2 - None/Two Stop Bits 3 - Even/Two Stop Bits 4 - Odd/Two Stop Bits 5 - None/One Stop Bit Present State of the Intercom Link. Bit Connected fully. No error messages. 1 - A message fault occurred. 2 - Devices are married. Target is identified and correct. 3 - A basic connection is established. When this value is TRUE the motor state will be unchanged after a communication idle event. A FALSE value will cause the Motor Control Communication Idle Value to be applied on a com idle event. Action to execute when a communication loss event occurs. 0 = Ignore (No Change) 1 = Stop When this value is TRUE the motor state will be unchanged after a communication loss event. A FALSE value will cause the Motor Control Communication Loss Value to be applied on a com loss. Table 99. s Available with C441 Motor Insight (Cont.) Start Coil Read/ Write Name Description (Units) R/W Motor Ctrl Com Loss Action Val R/W EtherNet/ IP Comm Timeout R/W Encapsulation Inactivity Timeout Action to execute when a communication loss event occurs. 0 = Ignore (No Change) 1 = Stop EtherNet/IP communication timeout Range: 0 60,000 ms Default: 3000 ms Number of seconds of inactivity before TCP connection is closed R Current I1 Phase A RMS Current, Unit: 90 Amp Models: x0.1a 9 Amp Models: x0.1a when external CTs are used; x0.01a otherwise ( scale ) R Current I2 Phase B RMS Current, Unit: 90 Amp Models: x0.1a 9 Amp Models: x0.1a when external CTs are used; x0.01a otherwise ( scale ) R Current I3 Phase C RMS Current, Unit: 90 Amp Models: x0.1a 9 Amp Models: x0.1a when external CTs are used; x0.01a otherwise ( scale ) R Current Average Average RMS Current, Unit: 90 Amp Models: x0.1a 9 Amp Models: x0.1a when external CTs are used; x0.01a otherwise ( scale ) R Voltage L1-L2 Phase A RMS Voltage L1-L2 ( V ) R Voltage L2-L3 Phase B RMS Voltage L2-L3 ( V ) R Voltage L3-L1 Phase C RMS Voltage L3-L1 ( V ) R Voltage Average RMS Voltage ( V ) Average R Motor Power Motor Power x0.1kw when external CTs are used x0.01kw otherwise ( scale ) R Voltage Unbalance Percentage R Current Unbalance Percentage R Apparent Power Factor R Residual Ground Current R Line frequency R Thermal Pile Percentage Max deviation from average voltage divided by average voltage ( % ) Max deviation from average current divided by average current ( % ) cos(phi), (real power)/(apparent power) ( % ) Residual Ground Current in Amps x 100 ( x0.01a ) Line Frequency ( x0.01hz ) Thermal Capacity 0% Cold Motor 100% Will Cause and Overload Trip ( % ) R Fault Queue Fault Code and Fault Code List. When read as a single item it is the most recent fault. When read as a list, faults are listed in history order. Newest are at the beginning, oldest are at the end of the list. If the device is in the Faulted state, Fault Code indicates the fault that caused the transition to Faulted state. If not in the Faulted state, the Fault Code indicates the fault that caused the last transition to the Faulted state R Remaining Rapid Cycling Restart Delay Supply Fault - Time to Restart ( sec ) R Remaining Normal Restart Delay Motor Fault - Time to Restart ( sec ) 51

52 Table 99. s Available with C441 Motor Insight (Cont.) Start Coil Read/ Write Name Description (Units) R Remaining Underload Trip Restart Delay Load Fault - Time to Restart ( sec ) R/W Run Time Motor Run Time in hours (resettable) ( hr ) Hours R Start Count Start Count (Resettable) R Trip Reason 0x Restart Attempts Exceeded 0x Relay Turned Off (Network/UI) 0x Contactor Failure 0x Under Current Trip 0x Overload Trip 0x GND Fault Trip 0x Current Unbalance Trip 0x Current Single Phase 0x Reserved (0) 0x High Power Trip 0x Over Voltage Trip 0x Under Voltage Trip 0x Voltage Unbalance Trip 0x Over Current Trip 0x Low Power Trip 0x Phase Reversal Trip R Overload Overload - 0x0001: Overload Trip - 0x0002: Ground Fault Trip - 0x0004: High Power Trip - 0x0080: Relay Closed R Error Code Warning/Alarm Indications 0x0001 (1) - Low Voltage Warning 0x0002 (2) - High Voltage Warning 0x0004 (4) - Voltage Unbalance Warning 0x0008 (8) - Low Power Warning 0x0010 (16) - Reverse Phase Warning 0x0020 (32) - Current Unbalance Warning 0x0040 (64) - Voltage Single Phase Warning 0x0080 (128) - Current Single Phase Warning 0x0100 (256) - GND Fault Warning R C441 DSP C441 DSP Firmware Version FW Version R UI Firmware User Interface Firmware Version Version R/W C441 Unit ID Unit ID 0x00BA (186) - C441BA 0x00BB (187) - C441BB 0x00CA (202) - C441CA 0x00CB (203) - C441CB 0x00DA (218) - C441DA 0x00DB (219) - C441DB 0x00EA (234) - C (x) 0x00EB (235) - C (x) R Aux Relay Trip Reason 0x Relay Turned Off (Network/UI) 0x Contactor Failure 0x Under Current Trip 0x Overload Trip 0x GND Fault Trip 0x Current Unbalance Trip 0x Current Single Phase 0x Mains Freq Fault 0x High Power Trip 0x Over Voltage Trip 0x Under Voltage Trip 0x Voltage Unbalance Trip 0x Over Current Trip 0x Low Power Trip 0x Phase Reversal Trip Table 99. s Available with C441 Motor Insight (Cont.) Start Coil R/W Command register Read/ Write Name Description (Units) R/W Motor Control R/W Configuration Reset 0x Clear Motor Run Hours 0x Clear Fault Queue 1 0x Clear Fault Queue 0x Network watchdog enable 0x Network watchdog disable 0x00AA - Reset Relay 0x00BB - Clear Motor Start Count 0x00CC - Force Ground Fault 0x00DD - Fault Relay OFF 0x00EE - Reset Auxiliary Relay (120 Vac Control Power models only) - 1 = Soft Reset (equivalent to a power cycle) 2 = Factory Reset R/W CT Multiplier For 90 Amp Units: 1-4, number of conductors through CT. For 9 Amp Units: 1-2, number of conductors through CT; For 9 Amp Units, CT multipliers: 3 (150:5), 4 (300:5), 5 (600:5) R/W Ground Fault Ground Fault Pick-up Level ( x0.01a ) Pick-up Level R/W Under Under Current Pick-up Level ( % ) Current Pickup Level R/W Low Power Low Power Pick-up Level ( x0.01kw ) Pick-up Level R/W Overload FLA Motor Full Load Current ( x0.01a ) R/W Current Current Unbalance Pick-up Level ( % ) Unbalance Pick-up Level R/W Overload Trip Overload Trip Class Class R/W Under Under Voltage Pick-up Level ( V ) Voltage Pickup Level R/W Over Voltage Over Voltage Pick-up Level ( V ) Pick-up Level R/W Voltage Voltage Unbalance Pick-up Level ( % ) Unbalance Pick-up Level R/W Jam Pick-up Jam Pick-up Level ( % ) Level R/W High KW Trip High Power Pick-up Level ( x0.01kw ) limit R/W Phase Order Phase Order - 0 (Trip Disabled) - 1 ACB - 2 ABC R/W Supply Fault Restart Delay ( sec ) Hold-off Time R/W Motor Fault Motor Fault Reset Delay ( min ) Hold-off Time R/W Load Fault Hold-off Time Load Fault Reset Delay ( min ) R/W Load Fault Number of Restarts R/W Motor Fault Number of Restarts R/W Ground Fault Trip Delay R/W Under Current Trip Delay R/W Low Power Trip Delay R/W Jam Trip Delay Load Fault Number of Reset Attempts 0: Manual 1-4 5: Automatic Motor Fault Number of Attempts: 0: Manual 1-4 5: Automatic Ground Fault Pickup Delay ( sec ) Under Current Trip Delay ( sec ) Low Power Trip Delay ( sec ) Jam Trip Delay ( sec ) 52

53 User Manual MN E Table 99. s Available with C441 Motor Insight (Cont.) Start Coil Read/ Write Name Description (Units) R/W Current Unbalance Trip Delay R/W Under Voltage Trip Delay R/W Over Voltage Trip Delay R/W Voltage Unbalance Trip Delay R/W High KW Trip Time R/W Current Phase Loss Trip Delay R/W Enable/ Disable Trip R/W Overload Reset R/W Voltage Faults Trip Mode R/W Ground Fault Trip Mode R/W Run Transition Percent R/W Run Transition Time R Network R/W C441 Comm loss Timeout R/W C441 Comm loss behavior R/W Load Fault Reset Delay Calc R/W Aux Relay Config 1 Current Unbalance Trip Delay ( sec ) Under Voltage Trip Delay ( sec ) Over Voltage Trip Delay ( sec ) Voltage Unbalance Run Delay ( sec ) High Power Trip Delay ( sec ) Pickup delay for current phase loss ( sec ) Trip Enable/Disable Bit Array: 0x0001 (1): Enable Ground Fault 0x0002 (2): Enable Voltage Unbalance 0x0004 (4): Enable Current Unbalance 0x0008 (8): Enable Under Current 0x0010 (16): Enable Phase Loss 0x0020 (32): Enable Jam 0x0040 (64): Enable Low Power 0x0080 (128): Enable High Power 0x0100 (256): Enable Over Voltage 0x0200 (512): Enable Under Voltage 0x0400 (1024): Enable Phase Order Overload Reset Mode 0: manual reset 1: apply Motor Fault Reset Delay and Number of Attempts Voltage Faults Trip Mode 0 - Trip on Supply Fault 1: Alarm-no-trip (inhibit start) Ground Fault Trip Mode 0 - Trip on ground fault 1 - Alarm no trip Run Transition % of FLA ( % ) Run Transition Time ( sec ) Network 0x0001: Watchdog Enabled 0x0004: Front Panel Locked Communication Loss Timeout ( millisec ) 1 = Fault - Default 2 = Hold Last State Load Fault Reset Delay Calculator Enable. Value = Description 0 = Disable (default) 1 = Enabled Only Available for 120 V Control Power Models. Each bit of this configuration parameter enables (value 1) or disables (value 0) a fault for the auxiliary relay. The meanings of the bits are: 0x01: Ground Fault 0x02: Voltage Unbalance 0x04: Current Unbalance 0x08: Under Current 0x10: Phase Loss 0x20: Jam Table 99. s Available with C441 Motor Insight (Cont.) Start Coil Read/ Write Name Description (Units) R/W Aux Relay Config R/W Aux Reset Delay Only Available for 120 V Control Power Models. Each bit of this configuration parameter enables (value 1) or disables (value 0) a fault for the auxiliary relay. The meanings of the bits are: 0x01: Low Power 0x02: High Power 0x04: Over Voltage 0x08: Under Voltage 0x10: Phase Order 0x20: Overload 0x40: Supply Frequency Fault Only Available for 120V Control Power Models. 0: Automatic reset of the auxiliary relay disabled 1-500: automatic auxiliary relay reset delay since last auxiliary relay fault ( min ) R/W Wire Config 0 = Three-phase 1 = Single-phase voltage and current 2 = Three-phase current only R/W Overload on start enable 0 = Disabled 1 = Enabled R/W GF on start enable 0 = Disabled 1 = Enabled R/W Anti-backspin time A fault will be generated after every motor stop. No resets will be permitted during the backspin period. Range: 0 to 3600 seconds R/W PT Ratio Indicates a PT ratio: 120 step-down Range = 0 to 8000, (0) zero indicates no PT connected R/W Modbus Production List R Modbus Production R/W Modbus Consumption List R/W Modbus Consumption The Production and consumption s can be used to create custom Modbus interface ranges. An example: If field inputs register address 0 is put into the first slot of the production list, the field inputs register value will be available in the first slot of the Modbus Production range. Production data is data provided by the device and Consumption data is for data provided (written) to the device. Note that the values must be Modbus Address (i.e., Number - 1) not Number. - The Production and consumption s can be used to create custom Modbus interface ranges. An example: If field inputs register address 0 is put into the first slot of the production list, the field inputs register value will be available in the first slot of the Modbus Production range. Production data is data provided by the device and Consumption data is for data provided (written) to the device. Note that the values must be Modbus Address (i.e., Number - 1) not Number. - 53

54 7.3 Definition for the C440 Overload Relay Table 100. s for the C440 Overload Relay Start Coil Read/ Write Name Description (Units) 1 1 R Field Inputs A Bitfield Representing the Input Points. 0 = Input 1 1 = Input 2 2 = Input 3 3 = Input 4-2 R Control Voltage Adapter Source Voltage. ( mv ) - 3 R Ambient Temperature - 4 R/W Max Board Temperature 65 5 R Dip Switch Value - 6 R Configuration CRC Device Ambient Temperature as Measured from the PCB. ( ºC ) The maximum board temperature experienced since manufacturing. ( ºC ) A bit field representing the present state of the dip switches. A CRC value calculated over the nonvolatile data present. - 7 R/W Serial Number 32 bit Com Adapter Device Serial Number. - 9 R Firmware Rev Com Adapter Firmware Rev R/W Hardware Rev Com Adapter Hardware Rev R/W Field Relay Outputs R/W Field Inputs Debounce R/W Modbus TCP Com Timeout R/W Field Relay Fault Action R/W Field Relay Fault State R/W Field Relay Idle Action R/W Field Relay Idle State R Method of IP Allocation A Bitfield Representing the Output Points. 0 = Output 1 1 = Output 2 Array of Debounce Values. A debounce value exists for each input. The debounce applies to both rising and falling edge. ( milliseconds ) Communication Timeout for Modbus TCP. 0 = Disable. ( milliseconds ) When a communication fault occurs the relays can execute two types of behavior. The behavior is selected on a per bit basis. 0 = Relay 1 1 = Relay 2 Bit Value = Description 0 = Apply Fault Value 1 = No Change Communication fault value to be applied. A bitfield where each bit defines an output point. Bit Value = Description 0 = Turn Relay Off 1 = Turn Relay On When a communication idle state occurs the relays can execute two types of behavior. The behavior is selected on a per bit basis. 0 = Relay 1 1 = Relay 2 Bit Value = Description 0 = Apply Idle Value 1 = No Change Communication idle value to be applied. A bitfield where each bit defines an output point. Bit Value = Description 0 = Turn Relay Off 1 = Turn Relay On The Method Used to Allocate an IP Address: 0 - DHCP 1 - Upper three octets from NV and lower octet selected by the dip switch setting. 2 - Full address taken from NV Memory. 3 - Restore (hardcoded ). Table 100. s for the C440 Overload Relay (Cont.) Start Coil Read/ Write Name Description (Units) R Present Ethernet IP Address R Present Ethernet Subnet Mask R Present Ethernet Default Gateway R/W Stored Ethernet IP Address R/W Stored Ethernet Subnet Mask R/W Stored Ethernet Default Gateway R/W Ethernet MAC Address R Intercom R/W Motor Ctrl Idle Loss Act Disable R/W Motor Ctrl Com Idle Action Val R/W Motor Ctrl Com Loss Act Disable R/W Motor Ctrl Com Loss Action Val R/W EtherNet/ IP Comm Timeout R/W Encapsulation Inactivity Timeout R Motor Ctrl State R Scaled Current Phase A RMS R Scaled Current Phase B RMS R Scaled Current Phase C RMS R Scaled 3Phase Ave Current R Thermal Memory Percentage The active IP address being used on the network. The active subnet mask IP address being used on the network. The active default gateway IP address being used on the network. The IP address used in the NV address select configuration. The IP subnet mask used in the NV address select configuration. The IP default gateway used in the NV address select configuration. - Present State of the Intercom Link. Bit Connected fully. No error messages. 1 - A message fault occurred. 2 - Devices are married. Target is identified and correct. 3 - A basic connection is established. When this value is TRUE the motor state will be unchanged after a communication idle event. A FALSE value will cause the Motor Control Communication Idle Value to be applied on a com idle event. Action to execute when a communication loss event occurs. 0 = Ignore (No Change) 1 = Stop When this value is TRUE the motor state will be unchanged after a communication loss event. A FALSE value will cause the Motor Control Communication Loss Value to be applied on a com loss. Action to execute when a communication loss event occurs. 0 = Ignore (No Change) 1 = Stop EtherNet/IP communication timeout Range: 0 60,000 ms Default: 3000 ms Number of seconds of inactivity before TCP connection is closed Motor Control States: 0 = Stopped 1 = Running 2,3 = Tripped 4 = Resetting Scaled RMS Current Phase A ( Amps ) Scaled RMS Current Phase B ( Amps ) Scaled RMS Current Phase C ( Amps ) Average of the 3 Scaled RMS Currents ( Amps ) Present Thermal Value. 100% equates to a trip condition. ( % ) 54

55 User Manual MN E Table 100. s for the C440 Overload Relay (Cont.) Start Coil Read/ Write Name Description (Units) R Latched Faults Faults are cleared when the device is either reset by the network or detects current flowing. The fault bits are defined as follows: Bit Feature 0 Overload Fault 1 Phase Imbalance 2 Phase Loss Fault 3 Ground Fault 4 Network Trip Command 5 NV Memory Failure 6-> Reserved R Current as Percentage of FLA R Phase Imbalance Percent R Ground Fault Percent R Scaled Ground Current RMS R Scaled FLA Setting R Overload Class Current as a percentage of FLA. Ie: If Current is 1Amp and the FLA is 1AMP the percent would be 100%. ( % ) Percent of Measured Phase Imbalance ( % ) Percent of Ground Fault Measured. GF% = GFC / ((.5)*FLA) ( % ) Scaled Ground Current. ( Amps ) The present FLA setting. The potentiometer selects this value. The value is scaled by the multiplier. ( Amps ) The present FLA class. Class settings are device dependent R Line Frequency The line frequency measured by the device. The frequency is displayed in decihz. ( Hertz ) R Feature States The feature status bits are defined as follows: Bit Feature 01 Class Index (00 = Class 10; 01 = Class 15; 10 = Class 20; 11 = Class 30) 2 Phase Loss/Imbalance Enabled 3 Ground Fault Enabled 4 Auto Reset Enabled 5 Remote Reset Active 6 Dip Switch Position 0 7 Dip Switch Position 1 8 Dip Switch Position 2 9 Dip Switch Position Reserved R Device Temperature R/W Trip/Reset Control R Scaled Min FLA R Scaled Max FLA R Current Scale Value The temperature as seen by the microcontroller. Accuracy ~ 10%. ( ºC ) When a state change is requested the bit will remain active until the device is able to execute the command. The bits are auto clearing after the state has been changed. Any other bits will simply be cleared. The following bits are defined: Bit Action 0 Cause a Trip (will override a reset). 1 Cause a Reset This is the min FLA setting possible in this device. The value is scaled by the multiplier. ( Amps ) This is the max FLA setting possible in this device. The value is scaled by the multiplier. ( Amps ) This value indicates the multiplier applied to the current values. For example: If the multiplier is 10 then all currents are read out in deciamps. 1A => 10A. ( Scale ) R Product Code The product code defines the internal Eaton product code. If the number is odd - it is Ground Fault Capable R Serial Number 32 bit Vendor Specific Serial Number R Hardware Rev Hardware revision is stored as a 2byte number with a major and minor revision. Table 100. s for the C440 Overload Relay (Cont.) Start Coil R Firmware Revision Read/ Write Name Description (Units) R Firmware Build R Firmware Checksum R/W Modbus Production List R Modbus Production R/W Modbus Consumption List R/W Modbus Consumption The firmware revision is stored in 32bit format. 0xMMmmbbbb. Where M = Major Revision, m = Minor Revision and b = Build Number. The firmware build is a 16 bit number. 0xbbbb - b = Build Number. The 32 bit checksum of the code. A simple 16 bit addition checksum. The Production and consumption s can be used to create custom Modbus interface ranges. An example: If field inputs register address 0 is put into the first slot of the production list, the field inputs register value will be available in the first slot of the Modbus Production range. Production data is data provided by the device and Consumption data is for data provided (written) to the device. Note that the values must be Modbus Address (i.e., Number - 1) not Number. - The Production and consumption s can be used to create custom Modbus interface ranges. An example: If field inputs register address 0 is put into the first slot of the production list, the field inputs register value will be available in the first slot of the Modbus Production range. Production data is data provided by the device and Consumption data is for data provided (written) to the device. Note that the values must be Modbus Address (i.e., Number - 1) not Number. - 55

56 7.4 Definition for the S611 Soft Starter Table 101. Definition for the S611 Soft Starter Start Coil Read/ Write Name Description (Units) 1 1 R Field Inputs A Bitfield Representing the Input Points. 0 = Input 1 1 = Input 2 2 = Input 3 3 = Input 4-2 R Control Voltage Adapter Source Voltage. ( mv ) - 3 R Ambient Temperature - 4 R/W Max Board Temperature 65 5 R Dip Switch Value - 6 R Configuration CRC Device ambient temperature as measured from the PCB. ( ºC ) The maximum board temperature experienced since manufacturing. ( ºC ) A bit field representing the present state of the dip switches. A CRC value calculated over the nonvolatile data present. - 7 R/W Serial Number 32 bit Com Adapter Device Serial Number. - 9 R Firmware Rev Com Adapter Firmware Rev R/W Hardware Rev Com Adapter Hardware Rev R/W Field Relay Outputs R/W Field Inputs Debounce R/W Modbus TCP Com Timeout R/W Field Relay Fault Action R/W Field Relay Fault State R/W Field Relay Idle Action R/W Field Relay Idle State A Bitfield Representing the Output Points. 0 = Output 1 1 = Output 2 Array of debounce values. A debounce value exists for each input. The debounce applies to both rising and falling edge. ( milliseconds ) Communication Timeout for Modbus TCP. 0 = Disable. ( milliseconds ) When a communication fault occurs the relays can execute two types of behavior. The behavior is selected on a per bit basis. 0 = Relay 1 1 = Relay 2 Bit Value = Description 0 = Apply Fault Value 1 = No Change Communication fault value to be applied. A bitfield where each bit defines an output point. Bit Value = Description 0 = Turn Relay Off 1 = Turn Relay On When a communication idle state occurs the relays can execute two types of behavior. The behavior is selected on a per bit basis. 0 = Relay 1 1 = Relay 2 Bit Value = Description 0 = Apply Idle Value 1 = No Change Communication idle value to be applied. A bitfield where each bit defines an output point. Bit Value = Description 0 = Turn Relay Off 1 = Turn Relay On Table 101. Definition for the S611 Soft Starter (Cont.) Start Coil Read/ Write Name Description (Units) R Method of IP Allocation R Present Ethernet IP Address R Present Ethernet Subnet Mask R Present Ethernet Default Gateway R/W Stored Ethernet IP Address R/W Stored Ethernet Subnet Mask R/W Stored Ethernet Default Gateway R/W Ethernet MAC Address R/W Modbus Com Timeout R/W Modbus TX mode R/W Modbus Baud Rate R/W Modbus Address R/W Modbus Parity and Stop Bits The Method Used to Allocate an IP Address: 0 - DHCP 1 - Upper three octets from NV and lower octet selected by the dip switch setting. 2 - Full address taken from NV Memory. 3 - Restore (hardcoded ). The active IP address being used on the network. The active subnet mask IP address being used on the network. The active default gateway IP address being used on the network. The IP address used in the NV address select configuration. The IP subnet mask used in the NV address select configuration. The IP default gateway used in the NV address select configuration. - Communication Timeout for Modbus. 0 = Disable. ( milliseconds ) Selects the Modbus Mode. 0 - RTU 1 - ASCII Selects the Modbus Baud Rate kb 1-9.6kb kb kb Modbus address loaded at startup. Selects the Modbus UART Parity and Stop Bits. 0 - Even/One Stop Bit 1 - Odd/One Stop Bit 2 - None/Two Stop Bits 3 - Even/Two Stop Bits 4 - Odd/Two Stop Bits 5 - None/One Stop Bit R Intercom Present State of the Intercom Link. Bit Connected fully. No error messages. 1 - A message fault occurred. 2 - Devices are married. Target is identified and correct. 3 - A basic connection is established R/W Motor Ctrl Idle Loss Act Disable R/W Motor Ctrl Com Idle Action Val R/W Motor Ctrl Com Loss Act Disable R/W Motor Ctrl Com Loss Action Val When this value is TRUE the motor state will be unchanged after a communication idle event. A FALSE value will cause the Motor Control Communication Idle Value to be applied on a com idle event. Action to execute when a communication loss event occurs. 0 = Ignore (No Change) 1 = Stop When this value is TRUE the motor state will be unchanged after a communication loss event. A FALSE value will cause the Motor Control Communication Loss Value to be applied on a com loss. Action to execute when a communication loss event occurs. 0 = Ignore (No Change) 1 = Stop 56

57 User Manual MN E Table 101. Definition for the S611 Soft Starter (Cont.) Start Coil Read/ Write Name Description (Units) R/W EtherNet/IP Comm Timeout R/W Encapsulation Inactivity Timeout EtherNet/IP communication timeout Range: 0 60,000 ms Default: 3000 ms Number of seconds of inactivity before TCP connection is closed R Motor Motor Control Bits: 0 = Run 2 = In Bypass 5 = Fault 11 = Relay 1 State 12 = Relay 2 State 13 = Control From Network 14 = Permissive State R Current Scale Factor R Phase A RMS Current R Phase B RMS Current R Phase C RMS Current R Average Current R Vab RMS Voltage R Vbc RMS Voltage R Vca RMS Voltage R Average Voltage Scale Factor for Current. Use this value to scale the current values. Scaled RMS Current of Phase A. (Amps) Scaled RMS Current of Phase B. (Amps) Scaled RMS Current of Phase C. (Amps) Average of the 3 Scaled RMS Currents. ( Amps ) RMS line-to-line voltage measured between phase A and B. ( Volts ) RMS line-to-line voltage measured between phase B and C. ( Volts ) RMS line-to-line voltage measured between phase C and A. ( Volts ) Average of the 3 Scaled RMS Voltages ( Volts ) R Total Kilowatts Scaled Total Kilowatts. Scale factor is x10 ( kw ) R Apparent Apparent Power Factor * 100 Power Factor R Power Sign Indicates whether power is positive or negative. In the case of a generator R Line Frequency Scaled Line Frequency. Scaling is x100. ( Hz ) R Overload Thermal Memory R Current Unbalance R Voltage Unbalance R Residual Ground Fault Current R Phase A Pole Temp R Phase B Pole Temp R Phase C Pole Temp Thermal Capacity 0% Cold Motor 100% Will Cause an Overload Trip ( % ) Percent Current Phase Imbalance. ( % ) Voltage Unbalance Percent. ( % ) Scaled Residual Ground Fault Current. Scaling = x100 Power Pole Temperature. Scaled = x10 ( ºC ) Power Pole Temperature. Scaled = x10 ( ºC ) Power Pole Temperature. Scaled = x10 ( ºC ) R Pole Temp Average Power Pole Temperature. Scaled = x10 ( ºC ) R Number of Starts Total number of starts can be reset through the command parameter R Total Run Time Run time in hours. Total run time can be reset through the command parameter. ( Hours ) Table 101. Definition for the S611 Soft Starter (Cont.) Start Coil Read/ Write Name Description (Units) R Trip Reason 0 = Overload 1 = Jam 2 = Stall 3 = Current Imbalance 4 = Load Disconnect 5 = Phase Loss 6 = Mains Fault 7 = Phase Reversal 8 = Shorted SCR 9 = SCR Not Firing 10 = Pole Overtemp 11 = Bypass Dropout 12 = SCR Overcurrent 13 = Contactor Overcurrent 14 = Communication Fault 15 = Other Device Fault R Fault Code Fault Code and Fault Code List. When read as a single item it is the most recent fault. When read as a list, faults are listed in history order. Newest are at the beginning, oldest are at the end of the list. If the device is in the Faulted state, Fault Code indicates the fault that caused the transition to Faulted state. If not in the Faulted state, the Fault Code indicates the fault that caused the last transition to the Faulted state R Orion Firmware - Revision R Orion Firmware - Build R Orion UI Firmware Version for the User Interface. Firmware R Unit ID Descriptive Product Identifier R/W Modbus Change Tracker Queue R/W Motor Control Motor Control Bits: 0 = Run 2 = Permissive 3 = Reset R/W Start Input Behavior R/W Command R/W Configuration Reset R/W Scaled Overload FLA Selects the behavior for the start input. When edge is selected, a start will only be performed on the rising edge of the start input. When level is selected, a start will occur any time the input is high. 0 = Edge 1 = Level 1 = Clear Motor Run Hours 2 = Clear Motor Start Count 3 = Clear Fault Queue 255 = Force Overload Rest (TP = 0) 250 = Force Comm Fault (Unpublished) 1 = Soft Reset 2 = Factory Defaults Scaled Overload FLA. Scaling factor is x10. ( Amps ) R/W Rated Voltage Rated Voltage of the Motor R/W Start Method Motor Start Method: 0 = Vramp 1 = Limit 2 = Pump Note: If special function bit 0 is set, then pump option is available and set as the default, otherwise ramp start (0) is default R/W Start Time Motor Start Ramp Time. ( deciseconds ) R/W Initial Motor Torque Starting (Initial) Torque Percent. 57

58 Table 101. Definition for the S611 Soft Starter (Cont.) Start Coil Read/ Write Name Description (Units) R/W Stop Time Motor Stop Ramp Time. Minimum time of 0 without pump option. Minimum time of 50 with pump stop enabled ( deciseconds ) R/W Pump Stop Time If supported, the amount of time to use for the pump stop ramp behavior. ( seconds ) R/W Kick Start Time The Amount of Time to Apply a Kick Start. ( deciseconds ) R/W Kick Start Initial Torque R/W Reset Mode Method of Reset. 0 = Manual 1 = Auto R/W Fault Enable Bits Initial Torque Value for the Kick Start. ( % ) Fault Enable Bits: 0 = Overload 1 = Jam 2 = Stall 3 = Current Imbalance 4 = Load Disconnect 5 = Phase Loss 6 = Under Voltage 7 = Over Voltage 8 = Voltage Unbalance 9 = Phase Reversal 10 = Ground Fault 11 = Overload On Start 12 = Shorted SCR 13 = SCR Not Firing 14 = Over Temperature R/W Overload Class Overload Trip Class Setting R/W Jam Trip Level Jam Trip Level Set in Percent of FLA. ( % ) R/W Jam Trip Delay Jam Trip Delay in Seconds. ( seconds ) R/W Stall Trip Level Stall Trip Level in Percent of FLA. ( % ) R/W Residual GF Trip Level R/W Residual GF Trip Delay R/W Residual GF Start Delay R/W Current Unbalance Trip Level R/W Current Unbalance Trip Delay R/W Load Disconnect Trip Level R/W Load Disconnect Trip Delay R/W Load Disconnect Source R/W Phase Loss Trip Level R/W Phase Loss Trip Delay R/W Under Voltage Level R/W Under Voltage Trip Delay R/W Over Voltage Level Scaled Residual Ground Fault Trip Level. Scaling = x100 Length of time that the ground fault must be present to cause a trip. ( seconds ) Length of time before the device will begin to acknowledge the ground fault current. ( seconds ) Unbalance level where a trip will be triggered. ( % ) Trip delay applied to the unbalance trip. ( Seconds ) Load disconnect trip level as a percent of rated FLA. ( % ) Load disconnect trip delay in seconds. ( seconds ) Load Disconnect Source: 0 = Under Power 1 = Under Current Trip Level for a Phase Imbalance Trip. ( % ) Trip Delay applied to the Phase Loss Trip Sense. ( seconds ) Percent Undervoltage Relative to Set Voltage. ( % ) Delay Applied to the Undervoltage Trip. ( seconds ) Overvoltage Percent Trip Level. ( % ) Table 101. Definition for the S611 Soft Starter (Cont.) Start Coil Read/ Write Name Description (Units) R/W Over Voltage Trip Delay R/W Voltage Unbalance Trip Level R/W Voltage Unbalance Trip Delay R/W Phase Sequence R/W Fault Relay Config R/W Auxiliary Relay Configuration Overvoltage Trip Delay. ( seconds ) Unbalance Level where a Trip will be Triggered. ( % ) Delay Applied to Voltage Unbalance Trip. ( seconds ) Line Voltage Phase Sequence: 1 = ABC 2 = ACB Fault Relay Configuration: 0 = Faulted 1 = Not Faulted Auxiliary Relay Configuration Behavior: 0 = Faulted 1 = Not Faulted 2 = Bypass 3 = Not In Bypass 4 = Motor Energized 5 = Motor Not Energized R/W UI Edit Lock Provides the ability to prevent the user interface from making configuration changes. 0 = Unlocked 1 = Locked R/W User Interface Display Config R/W Communication Loss Timeout R/W Communication Loss Behavior R/W Network Timeout R/W Modbus Production List R Modbus Production User Interface Display Configuration. Value = Description 0 = Thermal Capacity 1 = Power Factor 2 = Line Frequency 3 = Current Unbal % 4 = Voltage Unbalance % 5 = Average pole temp 6 = Pole A Temp 7 = Pole B Temp 8 = Pole C Temp Communication Loss Timeout Value ( milliseconds ) 1 = Fault 2 = Hold last state 3 = Stop (1) Network Watchdog or Timeout Enable. 0 = Disable 1 = Enable The Production and consumption s can be used to create custom Modbus interface ranges. An example: If field inputs register address 0 is put into the first slot of the production list, the field inputs register value will be available in the first slot of the Modbus Production range. Production data is data provided by the device and Consumption data is for data provided (written) to the device. Note that the values must be Modbus Address (i.e., Number - 1) not Number. - 58

59 User Manual MN E Table 101. Definition for the S611 Soft Starter (Cont.) Start Coil Read/ Write Name Description (Units) R/W Modbus Consumption List R/W Modbus Consumption The Production and consumption s can be used to create custom Modbus interface ranges. An example: If field inputs register address 0 is put into the first slot of the production list, the field inputs register value will be available in the first slot of the Modbus Production range. Production data is data provided by the device and Consumption data is for data provided (written) to the device. Note that the values must be Modbus Address (i.e., Number - 1) not Number Definitions for S811+ Soft Starter Table 102. Definitions for S811+ Soft Starter Start Coil Read/ Write Name Description (Units) 1 1 R Field Inputs A bitfield representing the input points. 0 = Input 1 1 = Input 2 2 = Input 3 3 = Input 4-2 R Control Voltage Adapter source voltage. ( mv ) - 3 R Ambient Temperature - 4 R/W Max Board Temperature 65 5 R Dip Switch Value - 6 R Configuration CRC Device ambient temperature as measured from the PCB. ( C ) The maximum board temperature experienced since manufacturing. ( C ) A bit field representing the present state of the dip switches. A CRC value calculated over the nonvolatile data present. - 7 R/W Serial Number 32bit Com Adapter Device Serial Number. - 9 R Firmware Rev Com Adapter Firmware Rev R/W Hardware Rev Com Adapter Hardware Rev R/W Field Relay Outputs R/W Field Inputs Debounce R/W Modbus TCP Com Timeout R/W Field Relay Fault Action Warning: changing this value may cause the output relay(s) to change state. A bitfield representing the output points. 0 = Output 1 1 = Output 2 Value 0x00: Output 1 Off, Output 2 Off Value 0x01: Output 1 On, Output 2 Off Value 0x02: Output 1 Off, Output 2 On Value 0x03: Output 1 On, Output 2 On Array of debounce values. A debounce value exists for each input. The debounce applies to both rising and falling edge. Web interface setting examples (comma separated values): 10,10,10,10 change all four debounce values to 10 msec; 15,20 changes the first two debounce values to 15 msec and 20 msec and leaves the rest unchanged;,,,30 changes the last debounce value to 30 and leaves the first three unchanged ( milliseconds ) Communication timeout for Modbus TCP. 0 = Disable. ( milliseconds ) When a communication fault occurs the relays can execute two types of behavior. The behavior is selected on a per bit basis. 0 = Relay 1 1 = Relay R/W Field Relay Fault State Bit Value = Description 0 = Apply Fault Value 1 = No Change Communication fault value to be applied. A bitfield where each bit defines an output point. Bit Value = Description 0 = Turn Relay Off 1 = Turn Relay On 59

60 Table 102. Definitions for S811+ Soft Starter (Cont.) Start Coil Read/ Write Name Description (Units) R/W Field Relay Idle Action R/W Field Relay Idle State R Eth Port 1 Speed Actual R Eth Port 1 Full Duplex Enabled R Eth Port 1 Autonegotiate State R Eth Port 1 Enabled R Eth Port 2 Speed Actual R Eth Port 2 Full Duplex Enabled R Eth Port 2 Autonegotiate State R Eth Port 2 Enabled R Method of IP Allocation When a communication idle state occurs the relays can execute two types of behavior. The behavior is selected on a per bit basis. 0 = Relay 1 1 = Relay 2 Bit Value = Description 0 = Apply Idle Value 1 = No Change Communication idle value to be applied. A bitfield where each bit defines an output point. Bit Value = Description 0 = Turn Relay Off 1 = Turn Relay On Actual Ethernet link speed. ( Mbs ) Actual duplex mode True = Full Duplex False = Half Duplex. Active state of the Auto-Negotiation behavior. Value = State 0 = Link Inactive 1 = Auto Negotiation in Progress 2 = Auto Negotiation Failed (Default used) 3 = Auto Negotiation of Duplex Failed (speed ok) 4 = Auto Negotiation Success 5 = Auto Negotiation Disabled 6 = Port Disabled This parameter can disable the Ethernet Port. Effectively disabling the port. True = Enable Port False = Disable Port Actual Ethernet link speed. ( Mbs ) Actual duplex mode. True = Full Duplex False = Half Duplex Active state of the Auto-Negotiation behavior. Value = State 0 = Link Inactive 1 = Auto Negotiation in Progress 2 = Auto Negotiation Failed (Default used) 3 = Auto Negotiation of Duplex Failed (speed ok) 4 = Auto Negotiation Success 5 = Auto Negotiation Disabled 6 = Port Disabled This parameter Indicates whether an Ethernet port is enabled. True = Port Enabled False = Port Disabled The method used to allocate an IP Address: 0 - DHCP 1 - Upper three octets from NV and lower octet selected by the dip switch setting. 2 - Full address taken from NV Memory. 3 - Restore (hardcoded ). Table 102. Definitions for S811+ Soft Starter (Cont.) Start Coil Read/ Write Name Description (Units) R Present Ethernet IP Address R Present Ethernet Subnet Mask R Present Ethernet Default Gateway R/W Stored Ethernet IP Address R/W Stored Ethernet Subnet Mask R/W Stored Ethernet Default Gateway R/W Ethernet MAC Address R/W Modbus Com Timeout R/W Modbus TX mode R/W Modbus Baud Rate R/W Modbus Address R/W Modbus Parity and Stop Bits R Intercom R/W Motor Ctrl Com Idle Act Disable R/W Motor Ctrl Com Idle Action Val R/W EtherNet/IP Comm Timeout R/W Encapsulation Inactivity Timeout The active IP address being used on the network. The active subnet mask IP address being used on the network. The active default gateway IP address being used on the network. The IP address used in the NV address select configuration. The IP subnet mask used in the NV address select configuration. The IP default gateway used in the NV address select configuration. Unique MAC Address assigned to this device. Communication timeout for Modbus. 0 = Disable. ( milliseconds ) Selects the Modbus Mode. 0 - RTU 1 - ASCII Selects the Modbus baud rate kb 1-9.6kb kb kb Modbus address loaded at startup. Selects the Modbus UART parity and Stop Bits. 0 - Even/One Stop Bit 1 - Odd/One Stop Bit 2 - None/Two Stop Bits 3 - Even/Two Stop Bits 4 - Odd/Two Stop Bits 5 - None/One Stop Bit Present state of the Intercom Link. Bit Connected fully. No error messages. 1 - A message fault occurred. 2 - Devices are married. Target is identified and correct. 3 - A basic connection is established. When this value is TRUE the motor state will be unchanged after a communication idle event. A FALSE value will cause the Motor Control Communication Idle Value to be applied on a com idle event. Action to execute when a communication idle event occurs. 0 = Ignore (No Change) 1 = Stop EtherNet/IP communication timeout Range: 0 60,000 ms Default: 3000 ms Number of seconds of inactivity before TCP connection is closed 60

61 User Manual MN E Table 102. Definitions for S811+ Soft Starter (Cont.) Start Coil Read/ Write Name Description (Units) R Motor Control R Active Fault List R Motor Control Faults R Motor Control Warnings R Average current as % FLA R % Thermal Pile used R 3Ph RMS Mains Voltage R Total Motor Starts R Analog Input Value (% of range) R Analog Input Motor Control for S811+ Bit Description 0 Running1 - RUN1 command active 1 Running2 - Jog command active 2 Permissive - Start allowed (must be 1 to start) 3 Ramp2 - Ramp2 settings active 4 Local Control (0 - network; 1 - local) 5 Faulted - S811+ fault present 6 Warning - S811+ warning present (self clearing) 7 In bypass - S811+ Bypass closed Will display up to 3 faults/warnings that are actively present S811+ Motor Control Fault Bit Field Bit Fault 0 Phaseloss 1 Phase Imbalance 2 Thermal Pile 3 Overcurrent 4 Breaker Fault 5 GND Fault 6 Motor Stall 7 Motor Jam 8 OverTemp 9 UnderLoad 10 Reserved 11 Estop 12 Reserved 13 Reserved 14 Reserved 15 Other S811+ Motor Control Warning Bit Field Bit Warning 0 Phaseloss 1 Phase Imbalance 2 Thermal Pile 3 Overcurrent 4 Breaker Fault 5 GND Fault 6 Motor Stall 7 Motor Jam 8 OverTemp 9 UnderLoad 10 Reserved 11 Reserved 12 Reserved 13 Reserved 14 Reserved 15 Other Average of the 3 phase current as a percentage of the Motor Nameplate fla setting Thermal Pile Used Percentage - Trip at 100% 3 Phase RMS Mains voltage reading (in volts) Number of motor starts Analog input reading (in percent of set range) of the S811+ analog input 0x00 - Not Active 0x01 - Input under range 0x02 - Input over range 0x03 - Input in overdrive 0x04 - Input is in range Table 102. Definitions for S811+ Soft Starter (Cont.) Start Coil Read/ Write Name Description (Units) R S811 Discrete Input R S811 Discrete Output R Network Outputs The Discrete data Input register will show the active/inactive status of S811+ hardwired and networked inputs. Bits 3..0 indicate the status of the S811+ terminal block inputs and bits 7..4 indicate the status of the network inputs located in the Network Input (C441 communication adapter inputs#1-4 when connected) Bit Description 0 S811+ discrete input#1 status 1 S811+ discrete input#2 status 2 S811+ discrete input#3 status 3 S811+ discrete input#4 status 4 Network input#1 status( C441 Com adapter input#1) 5 Network input#2 status( C441 Com adapter input#2) 6 Network input#3 status( C441 Com adapter input#3) 7 Network input#4 status( C441 Com adapter input#4) The Discrete data Output register bits 1..0 indicate the status of the S811+ relays and bits 3..2 indicate the status of the network outputs being generated by the S811+ configurable output logic(c441 communication adapter outputs#1-2 when connected) Bit Description 0 S811+ discrete forma relay status 1 S811+ discrete formc relay status 2 Network output#1 status( C441 Com adapter output#1) 3 Network output#2 status( C441 Com adapter output#2) The network outputs are available as a MODBUS coil that maybe read by the network and any attached C441 communication adapter. The C441 adapters will output the status of the network outputs by default on its Q1 and Q2 relays R Fault Queue S811+ fault Queue Queue will hold up to the last 10 faults - Fault codes are not repeated in queue R 3Ph Average Line Current R 3Ph RMS Line Current R 3Ph Ave Line Current (amps) R 3Ph RMS Line Current (amps) R 3Ph Ave Line Current (deciamps) R 3Ph RMS Line Current (deciamps) R 3Ph Average Pole Current Average 3 phase RMS current flowing to the motor RMS line current reading - This is the actual current flowing to the motor. In inside the delta applications this current will be the pole current multiplied by square root of 3 Scaled RMS average of the 3phase line current - This is the actual current flowing to the motor in 1.0A. Scaled RMS 3phase line current - This is the actual current flowing to the motor in 1.0A. Scaled RMS average of the 3phase line current - This is the actual current flowing to the motor in 0.1A. Scaled RMS 3phase line current - This is the actual current flowing to the motor in 0.1A. Average 3 phase RMS current flowing through S811+ power poles 61

62 Table 102. Definitions for S811+ Soft Starter (Cont.) Start Coil Read/ Write Name Description (Units) R 3Ph RMS Pole Current R 3Ph Ave Pole Current (amps) R 3Ph RMS Pole Current (amps) R 3Ph Ave Pole Current (deciamps) R 3Ph RMS Pole Current (deciamps) RMS pole current reading - This is the actual current flowing through the power pole of the S811+. In inside the delta applications the actual motor current will be this current multiplied by square root of 3 Scaled RMS average of the 3phase pole current - This is the actual current flowing through the power poles of the S811+ in 1.0A Scaled RMS 3phase pole current - This is the actual current flowing through the power poles of the S811+ in 1.0A Scaled RMS average of the 3phase pole current - This is the actual current flowing through the power poles of the S811+ in 0.1A Scaled RMS 3phase pole current - This is the actual current flowing through the power poles of the S811+ in 0.1A R Power Factor Power factor reading (in ) R Ave 3Ph Real Power (kw) Average 3 phase real power (in kw) R Power Pole Temperature R DC Control Voltage R Device Temperature R Auto Reset Count S811+ power pole temperature in 0.1 degrees C DC Control Voltage reading in 0.001V Device Temperature in 0.1 degrees C Number of auto reset attempts R Line Frequency Frequency reading of incoming mains voltage (in 0.01Hz) R Incoming Phase Sequence Phase sequence of incoming mains voltage 0 - ABC 1 - ACB R Fault List S811+ fault list List will hold up to the last 10 faults - Fault codes will be repeated in list R Application status Last active fault R Run1 Input Level Sense Enable R/W Modbus Motor Control R/W Modbus Two Wire Motor Control Reports the logic sense for RUN1 input on the local terminal block (selected by S1 dipswitch) 0x00 - edge sense 0x01 - level sense Modbus Motor Control for S811+ Bit Description 0 Run1 - Normal start bit (edge sense) 1 Jog - Jog motor bit (level sense) 2 Permissive - Allow start (level sense - must be 1 to start) 3 Fault Reset - Reset fault 4 Reserved 5 Reserved 6 Reserved 7 Ramp2-2nd ramp profile (uses Ramp2 parameters for start profile) Modbus Two Wire Motor Control for S811+ Bit Description 0 Run1 - Normal start bit (level sense) 1 Jog - Jog motor bit (level sense) 2 Reserved 3 Fault Reset - Reset fault 4 Reserved 5 Reserved 6 Reserved 7 Ramp2-2nd ramp profile (uses Ramp2 parameters for start profile) Table 102. Definitions for S811+ Soft Starter (Cont.) Start Coil R/W Network Inputs R/W MODBUS Baud Rate Read/ Write Name Description (Units) R MODBUS Node Address R/W MODBUS Parity R/W MODBUS Stop Bits R/W MODBUS Mode (RTU / ASCII) R/W Motor Nameplate FLA (float) R/W Motor Nameplate FLA in 0.1A R/W Overload Trip Class R/W Motor Rated Volts R/W Incoming Line Frequency Rating R/W Motor Wiring Cfg R/W Expected Incoming Phase Sequence R/W Motor Start Method R/W Initial Starting Torque R/W Start Ramp Time R/W Stop Ramp Time R/W Pump Stop Time R/W Kickstart Starting Torque The network inputs can be controlled through a MODBUS coil or the I4..I1 inputs of an attached C441 communication adapter. Modbus Baud Rate Code 0 = = = = = default value 5 = = = = Reserved Modbus Baud Rate is only updated on power up. Modbus Slave Address read from dipswitches - Modbus address is only updated on power up Modbus Parity 0: even (1 stop bit) 1: odd (1 stop bit) 2: no parity (2 stop bits) Modbus parity is only updated on power up Modbus stop bits 1 or 2 (See modbus parity) Modbus transmission mode 0x00 - RTU mode (default) 0x01 - ASCII mode Full load amperage rating of motor (float) Full load amperage rating of motor scaled in 0.1A ( deci Amps ) Overload Trip Class ( 5-30; 20 default) Rated voltage of the motor Expected frequency of incoming mains voltage Motor wiring configuration setting 0 - inline wiring (default) 1 - inside the delta wiring Expected phase sequence of incoming mains 0 - ABC 1 - ACB Motor start method 0x00 - rampstart (voltage ramp) 0x01 - current limit (applies a constant voltage during start) 0x02 - reserved 0x03 - pumpstart (when selected, pumpstop is active, softstop is not active) Starting torque setting for ramp start Motor start ramp time. Motor stop ramp time. Parameter is not active when start method is set to pump The amount of time to use for the pump stop ramp behavior. Parameter is active when pumpstart is selected for motor start method Initial torque value for the kick start 62

63 User Manual MN E Table 102. Definitions for S811+ Soft Starter (Cont.) Start Coil Read/ Write Name Description (Units) R/W Kickstart Duration R/W Ramp2 Expected Phase Sequence R/W Ramp2 Motor Start Method R/W Ramp2 Initial Starting Torque R/W Ramp2 Start Ramp Time R/W Ramp2 Stop Ramp Time R/W Ramp2 Pump Stop Time R/W Ramp2 Kickstart Starting Torque R/W Ramp2 Kickstart Duration R/W Local Control Only Enable R/W Discrete Input Cfg R/W Analog Input Range R/W Discrete Output Cfg The amount of time to apply a kick start (in 0.1secs) Expected phase sequence of incoming mains for ramp2 start 0 - ABC 1 - ACB Motor start method for ramp2 start 0x00 - rampstart (voltage ramp) 0x01 - current limit (applies a constant voltage during start) 0x02 - reserved 0x03 - pumpstart (when selected, ramp2 pumpstop is active, ramp2 softstop is not active) Starting torque setting for ramp2 start Motor start ramp time for ramp2. Motor stop ramp time for ramp2. Parameter is not active when ramp2 start method is set to pump The amount of time to use for the pump stop ramp2 behavior. Parameter is active when pumpstart is selected for ramp2 motor start method Initial torque value for the kick start for ramp2 The amount of time to apply a kick start (in 0.1secs) for ramp2 start Local control from terminal block enable 0x00 - disabled (network control possible) 0x01 - enabled (local control from terminal block only) Allows custom configuration of the S811+ inputs#1 - #4 and four additional network inputs 0 - no function 1 - run1 2 - ramp2 3 - jog 4 - local control enable 5 - fault reset 6 - e-stop input (active low) 7 - alarm no trip (active low) 8 - external fault (active low) 9 - external warning (active low) 10 - disable overload on start 11 - analog input enable (only for input#4) Selected range of analog input 0x mA range 0x mA range Allows custom configuration of the two S811+ aux relays and two additional network outputs 0 - no function 1 - faulted 2 - not faulted 3 - in bypass 4 - not in bypass 5 - motor is energized 6 - motor is not energized 7 - warning 8 - not warning 9 - custom code (up to 3 specific codes can be entered to trip this output) 10 - not custom code Table 102. Definitions for S811+ Soft Starter (Cont.) Start Coil Read/ Write Name Description (Units) R/W Custom Fault Output Cfg R/W Fault Reset Mode R/W Auto Reset Delay Time R/W Auto Reset Attempt Limit R/W Overload Trip Enable R/W Enable Overload During Start R/W Phase Reversal Trip Enable R/W Undercurrent Trip Enable R/W Undercurrent Trip Level (% FLA) R/W Undercurrent Trip Duration R/W Motor Jam Trip Enable R/W Motor Stall Trip Enable R/W Phase Loss Trip Enable R/W Motor Phase Loss Trip Level R/W Motor Phase Loss Duration R/W Phase Imbalance Trip Enable R/W Motor Phase Imbalance Trip Level R/W Motor Phase Imbalance Trip Duration R/W Voltage Imbalance Trip Level R/W Voltage Imbalance Trip Duration User can select up to 3 specific fault/ warning codes which will be used to trip any outputs configured for custom codes Fault reset mode 0x00 - manual reset 0x01 - auto reset 0x02 - power on reset (reset faults on power cycle) Delay time after fault before attempting to auto reset Max number of auto reset attempts; once reached, S811 requires manual reset to clear fault Motor overload trip enable 0x00 - disable 0x01 - fault enable 0x02 - warning enable Enable the overload during start ramp 0x00 - overload is disabled during start ramp 0x01 - overload is enabled during start ramp Phase reversal trip enable 0x00 - disable 0x01 - fault enable 0x02 - warning enable Low load current trip enable 0x00 - disable 0x01 - fault enable 0x02 - warning enable Low load current trip threshold in percent of the motor nameplate fla setting Amount of time a low current condition must exist before a trip; (in 0.1secs) Motor jam trip enable 0x00 - disable 0x01 - fault enable 0x02 - warning enable Motor stall trip enable 0x00 - disable 0x01 - fault enable 0x02 - warning enable Motor phase loss trip enable 0x00 - disable 0x01 - fault enable 0x02 - warning enable Current phase loss trip threshold Amount of time a phase loss condition must exist before a trip; (in 0.1secs) Current phase imbalance trip enable 0x00 - disable 0x01 - fault enable 0x02 - warning enable Current imbalance trip threshold Amount of time a current imbalance condition must exist before a trip; (in 0.1secs) Voltage imbalance trip threshold Amount of time a voltage imbalance condition must exist before a trip; (in 0.1secs) 63

64 Table 102. Definitions for S811+ Soft Starter (Cont.) Start Coil Read/ Write Name Description (Units) R/W Under Voltage Trip Enable R/W Under Voltage Trip Threshold R/W Under Voltage Trip Duration R/W Over Voltage Trip Enable R/W Over Voltage Trip Threshold R/W Over Voltage Trip Duration R/W Line Frequency Trip R/W Frequency Deviation Trip Threshold R/W Frequency Trip Duration R/W Ave Power Trip Enable R/W Ave Power Low Trip Threshold R/W Ave Power High Trip Threshold R/W Ave Power Trip Duration R/W Analog Input Trip Enable R/W Analog Input Trip Low Threshold R/W Analog Input Trip High Threshold R/W Analog Input Trip Duration R/W Temperature Sensor Trip Enable R/W SCR Not Firing Trip Enable R/W SCR Shorted Trip Enable Under voltage trip enable 0x00 - disable 0x01 - fault enable 0x02 - warning enable Under voltage trip threshold (in percent of rated motor voltage) Amount of time an under voltage condition must exist before a trip; (in 0.1secs) Over voltage trip enable 0x00 - disable 0x01 - fault enable 0x02 - warning enable Over voltage trip threshold (in percent of rated motor voltage) Amount of time an over voltage condition must exist before a trip; (in 0.1secs) Line frequency deviation trip enable 0x00 - disable 0x01 - fault enable 0x02 - warning enable Line frequency deviation trip threshold (in percent of rated line frequency) Amount of time a frequency deviation condition must exist before a trip; (in 0.1secs) Average power trip enable 0x00 - disable 0x01 - fault enable 0x02 - warning enable Low power trip threshold (in percent of rated W) rated W = sqrt(3)*0.8pf*motor fla*rated motor voltage High power trip threshold (in percent of rated W) rated W = sqrt(3)*0.8pf*motor fla*rated motor voltage Amount of time a low or high power condition must exist before a trip; (in 0.1secs) Analog input trip enable 0x00 - disable 0x01 - fault enable 0x02 - warning enable Low analog input trip threshold (in percent of selected analog range) High analog input trip threshold (in percent of selected analog range) Amount of time a low or high analog input condition must exist before a trip; (in 0.1secs) Temperature sensor trip enable 0x00 - disable 0x01 - fault enable 0x02 - warning enable SCR not firing trip enable 0x00 - disable 0x01 - fault enable 0x02 - warning enable Shorted SCR trip enable 0x00 - disable 0x01 - fault enable 0x02 - warning enable Table 102. Definitions for S811+ Soft Starter (Cont.) Start Coil Read/ Write Name Description (Units) R/W Alarm - No Trip Enabled R/W Start Delay Active Warning Enable R/W Start Delay After Power up Alarm no trip enable allows the S811+ to continue to run through any motor faults. Fault will be issued but will not stop the starter. Faults meant to protect the softstarter will continue to trip the starter Enables warning when start delay timers are used. Warning is issued while start command is pending Time delay after power up before a start command can be issued R/W Start Delay Time delay after a start command is issued before the S811+ will attempt start R/W Start Delay After Run Change R/W Motor Comm Loss Action R/W Transient Motor Control Timeout R/W Motor Control Command Timeout R/W Network two wire control enable R/W GND Fault Enable R/W GND Fault Inhibit From Start Delay R Firmware Version List R Hardware Version R/W Modbus Device Reset R/W Modbus User Application Name User settable time delay between successive start profiles. Delay becomes active when start profile(ramp vs ramp2) changes between starts Motor comloss action 0x00 - auto stop 0x01 - auto run1 0x02 - unavailable 0x03 - hold last state 0x04 - unavailable 0x05 - unavailable 0x06 - unavailable 0x07 - all stop fault (will trip S811+ and issue all stop fault) Motor control timeout for transient UI devices Motor control timeout - communication idle time which will cause a Motor Control Device Missing fault Network two wire control parameter enable 0-3wire control (Modbus reg #500 active) 1-2wire control (Modbus reg #501 active) GND fault trip enable 0x00 - disable 0x01 - fault enable 0x02 - warning enable Parameter will mask the GND fault trip from the end of start ramp; in 0.1secs; Example: ramp time = 20, GND delay = 5, GND fault will be masked for 25 seconds after start command Firmware version - AVR, DSP Hardware version performs reset services on S811+ over modbus 0x00 - no reset 0x01 - soft reset (power cycle reset) 0x02 - factory reset (reset device back to defaults) 0x03 - app parameter reset 0x04 - reserved 0x05 - reserved 0x06 - flush fault queue/list User defined ASCII name. 64

65 User Manual MN E Table 102. Definitions for S811+ Soft Starter (Cont.) Start Coil Read/ Write Name Description (Units) R/W Modbus Production List R Modbus Production R/W Modbus Consumption List R/W Modbus Consumption The Production and consumption s can be used to create custom Modbus interface ranges. An example: If field inputs register address 0 is put into the first slot of the production list, the field inputs register value will be available in the first slot of the Modbus Production range. Production data is data provided by the device and Consumption data is for data provided (written) to the device. Note that the values must be Modbus Address (i.e., Number - 1) not Number Web setting examples (comma separated values): 1,2 sets the first two slots as 1 and 2, and leaves all the rest unchanged;,, 3 sets the third slot as 3 and leaves all the rest unchanged - The Production and consumption s can be used to create custom Modbus interface ranges. An example: If field inputs register address 0 is put into the first slot of the production list, the field inputs register value will be available in the first slot of the Modbus Production range. Production data is data provided by the device and Consumption data is for data provided (written) to the device. Note that the values must be Modbus Address (i.e., Number - 1) not Number. Web setting examples (comma separated values): 1,2 sets the first two slots as 1 and 2, and leaves all the rest unchanged;,, 3 sets the third slot as 3 and leaves all the rest unchanged Definitions for Use as Stand Alone I/O Table 103. s Available when Used as Stand Alone I/O Start Coil Read/ Write Name Description (Units) 1 1 R Field Inputs A Bitfield Representing the Input Points. 0 = Input 1 1 = Input 2 2 = Input 3 3 = Input 4-2 R Control Voltage Adapter Source Voltage. ( mv ) - 3 R Ambient Temperature - 4 R/W Max Board Temperature 65 5 R Dip Switch Value - 6 R Configuration CRC - 7 R/W Serial Number Device Ambient Temperature as Measured from the PCB. ( ºC ) The Maximum Board Temperature Experienced Since Manufacturing. ( ºC ) A Bit Field Representing the Present State of the Dip Switches. A CRC Value Calculated Over the Nonvolatile Present. 32 bit Com Adapter Device Serial Number. - 9 R Firmware Rev Com Adapter Firmware Rev R/W Hardware Rev Com Adapter Hardware Rev R/W Field Relay Outputs R/W Field Inputs Debounce R/W Modbus TCP Com Timeout R/W Field Relay Fault Action R/W Field Relay Fault State R/W Field Relay Idle Action A Bitfield Representing the Output Points. 0 = Output 1 1 = Output 2 Array of Debounce Values. A debounce value exists for each input. The debounce applies to both rising and falling edge. (milliseconds ) Communication Timeout for Modbus TCP. 0 = Disable. (milliseconds ) When a communication fault occurs the relays can execute two types of behavior. The behavior is selected on a per bit basis. 0 = Relay 1 1 = Relay 2 Bit Value = Description 0 = Apply Fault Value 1 = No Change Communication fault value to be applied. A bitfield where each bit defines an output point. Bit Value = Description 0 = Turn Relay Off 1 = Turn Relay On When a communication idle state occurs the relays can execute two types of behavior. The behavior is selected on a per bit basis. 0 = Relay 1 1 = Relay R/W Field Relay Idle State Bit Value = Description 0 = Apply Idle Value 1 = No Change Communication idle value to be applied. A bitfield where each bit defines an output point. Bit Value = Description 0 = Turn Relay Off 1 = Turn Relay On 65

66 Table 103. s Available when Used as Stand Alone I/O (Cont.) Start Coil Read/ Write Name Description (Units) R Method of IP Allocation R Present Ethernet IP Address R Present Ethernet Subnet Mask R Present Ethernet Default Gateway R/W Stored Ethernet IP Address R/W Stored Ethernet Subnet Mask R/W Stored Ethernet Default Gateway R/W Ethernet MAC Address R/W EtherNet/ IP Comm Timeout R/W Encapsulation Inactivity Timeout R/W Modbus Production List R Modbus Production R/W Modbus Consumption List R/W Modbus Consumption The method used to allocate an IP Address: 0 - DHCP 1 - Upper three octets from NV and lower octet selected by the dip switch setting. 2 - Full address taken from NV Memory. 3 - Restore (hardcoded ). The active IP address being used on the network. The active subnet mask IP address being used on the network. The active default gateway IP address being used on the network. The IP address used in the NV address select configuration. The IP subnet mask used in the NV address select configuration. The IP default gateway used in the NV address select configuration. - EtherNet/IP communication timeout Range: 0 60,000 ms Default: 3000 ms Number of seconds of inactivity before TCP connection is closed The Production and consumption s can be used to create custom Modbus interface ranges. An example: If field inputs register address 0 is put into the first slot of the production list, the field inputs register value will be available in the first slot of the Modbus Production range. Production data is data provided by the device and Consumption data is for data provided (written) to the device. Note that the values must be Modbus Address (i.e., Number - 1) not Number. - The Production and consumption s can be used to create custom Modbus interface ranges. An example: If field inputs register address 0 is put into the first slot of the production list, the field inputs register value will be available in the first slot of the Modbus Production range. Production data is data provided by the device and Consumption data is for data provided (written) to the device. Note that the values must be Modbus Address (i.e., Number - 1) not Number. - 66

67 User Manual MN E Notes: 67

68 This user manual is published solely for informational purposes and should not be considered all-inclusive. If further information is required, you should consult Eaton. Sale of product shown in this literature is subject to terms and conditions outlined in appropriate Eaton selling policies or other contractual agreements between the parties. This literature is not intended to and does not enlarge or add to any such contract. The sole source governing the rights and remedies of any purchaser of this equipment is the contract between the purchaser and Eaton. NO WARRANTIES, EXPRESSED OR IMPLIED, INCLUDING WARRANTIES OF FITNESS FOR A PARTICULAR PURPOSE OF MERCHANTABILITY, OR WARRANTIES ARISING FROM COURSE OF DEALING OR USAGE OF TRADE, ARE MADE REGARDING THE INFORMATION, RECOMMENDATIONS AND DESCRIPTIONS CONTAINED HEREIN. In no event will Eaton be responsible to the purchaser or user in contract, in tort (including negligence), strict liability or otherwise for any special, indirect, incidental or consequential damage or loss whatsoever, including but not limited to damage or loss of use of equipment, plant or power system, cost of capital, loss of power, additional expenses in the use of existing power facilities or claims against the purchaser or user by its customers resulting from the use of the information, recommendations and description contained herein. Licenses This product includes embedded software that incorporates or interfaces with the following third party software: lwip is licensed under the BSD license: Copyright (c) Swedish Institute of Computer Science. All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. 3. The name of the author may not be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDER ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE Eaton 1000 Eaton Boulevard Cleveland, OH United States Eaton.com 2016 Eaton All Rights Reserved Printed in USA Publication No. MN E / Z17638 January 2016 Eaton is a registered trademark. All other trademarks are property of their respective owners.